mirror of
https://github.com/chylex/Brotli-Builder.git
synced 2024-11-25 07:42:56 +01:00
325 lines
12 KiB
C#
325 lines
12 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.Collections.Huffman;
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using BrotliLib.Markers.Serialization;
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using BrotliLib.Markers.Serialization.Reader;
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using BrotliLib.Numbers;
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using BrotliLib.Serialization.Writer;
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using LengthNode = BrotliLib.Collections.Huffman.HuffmanNode<byte>;
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namespace BrotliLib.Brotli.Components.Header{
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public sealed class HuffmanTreeLengthCode : IComparable<HuffmanTreeLengthCode>{
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public const byte MaxLength = 15;
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public const byte Repeat = 16;
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public const byte Skip = 17;
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public const byte InitialRepeatedCode = 8;
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public const byte RepeatCodeExtraBits = 2;
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public const byte SkipCodeExtraBits = 3;
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/// <summary>
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/// Order of the complex length codes as they appear in the bit stream.
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/// </summary>
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private static readonly byte[] Order = {
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1, 2, 3, 4, 0, 5, Skip, 6, Repeat, 7, 8, 9, 10, 11, 12, 13, 14, 15
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};
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/// <summary>
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/// List of all complex length codes ordered by their integer value.
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/// </summary>
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private static readonly HuffmanTreeLengthCode[] Codes = Enumerable.Range(0, Order.Length).Select(code => new HuffmanTreeLengthCode(code)).ToArray();
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/// <summary>
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/// Huffman tree used to encode lengths of the complex length codes.
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/// </summary>
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private static readonly LengthNode LengthTree = new LengthNode.Path(
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new LengthNode.Path( // x0
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new LengthNode.Leaf(0), // 00
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new LengthNode.Leaf(3) // 01
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),
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new LengthNode.Path( // x1
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new LengthNode.Leaf(4), // 01
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new LengthNode.Path( // x11
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new LengthNode.Leaf(2), // 011
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new LengthNode.Path( // x111
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new LengthNode.Leaf(1), // 0111
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new LengthNode.Leaf(5) // 1111
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)
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)
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)
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);
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private static readonly Dictionary<byte, BitPath> LengthLookup = LengthTree.GenerateValueMapOptimized();
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public const byte LengthMaxDepth = 5;
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private const int LengthBitSpace = 1 << LengthMaxDepth;
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public struct Run{
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public const int MinSpecialCodeLength = 3;
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public byte Symbol { get; }
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public int Length { get; }
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public Run(byte symbol, int length){
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this.Symbol = symbol;
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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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/// Splits the run into two parts.
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/// The first part is <see cref="Length"/><c>-</c><paramref name="newRunLength"/> long and encoded without RLE.
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/// The second part is <paramref name="newRunLength"/> long and encoded with RLE, if possible.
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/// </summary>
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public int Split(int newRunLength){
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if (newRunLength < 1){
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throw new ArgumentOutOfRangeException(nameof(newRunLength));
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}
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return newRunLength; // if newRunLength > 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 representable by the <see cref="Repeat"/> and <see cref="Skip"/> codes.
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/// </summary>
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public sealed class RunDecider{
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/// <summary>
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/// Alphabet size of the encoded Huffman tree.
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/// </summary>
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public AlphabetSize AlphabetSize { get; }
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/// <summary>
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/// Amount of symbols whose lengths will actually be encoded. Does not include unused symbols that appear after the last used symbol.
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/// </summary>
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public int TrimmedSymbolCount { get; }
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private readonly List<byte> symbolLengths;
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public RunDecider(List<byte> symbolLengths, AlphabetSize alphabetSize){
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this.symbolLengths = symbolLengths;
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this.AlphabetSize = alphabetSize;
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this.TrimmedSymbolCount = symbolLengths.Count;
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}
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/// <summary>
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/// Returns the symbol bit length at the specified <paramref name="index"/>.
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/// </summary>
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public byte GetSymbolLength(int index){
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return symbolLengths[index];
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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(symbolLengths);
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for(int entryIndex = 0, lastRepeatStartIndex = 1, lastRepeatedCode = InitialRepeatedCode; entryIndex < resolution.CodeCount + 1; entryIndex++){
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int nextCode = entryIndex < resolution.CodeCount ? resolution.GetCodeAt(entryIndex) : -1;
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if (nextCode != lastRepeatedCode){
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if (lastRepeatedCode == 0 || lastRepeatedCode == resolution.FindLastNonRepetitionNonZeroCode(lastRepeatStartIndex - 2)){
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--lastRepeatStartIndex;
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}
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int runLength = entryIndex - lastRepeatStartIndex;
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if (runLength >= Run.MinSpecialCodeLength){
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int retained = resolver(new Run((byte)lastRepeatedCode, 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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int runStartIndex = lastRepeatStartIndex + runLength - retained;
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entryIndex = lastRepeatedCode == 0 ? resolution.EncodeRepetition(runStartIndex, Skip, retained, 1 << SkipCodeExtraBits)
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: resolution.EncodeRepetition(runStartIndex, Repeat, retained, 1 << RepeatCodeExtraBits);
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}
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}
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lastRepeatedCode = nextCode;
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lastRepeatStartIndex = entryIndex + 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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private readonly List<byte> codes;
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private readonly Queue<byte> extra;
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public RunResolution(List<byte> codes, Queue<byte> extra){
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this.codes = codes;
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this.extra = extra;
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}
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public (List<byte>, Queue<byte>) GenerateCodesAndExtraBits(){
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return (new List<byte>(codes), new Queue<byte>(extra));
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}
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public sealed class Builder{
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public int CodeCount => codes!.Count;
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private List<byte>? codes;
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private Queue<byte>? extra;
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public Builder(List<byte> symbolLengths){
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this.codes = new List<byte>(symbolLengths);
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this.extra = new Queue<byte>();
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}
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public int GetCodeAt(int index){
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return codes![index];
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}
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public byte FindLastNonRepetitionNonZeroCode(int startIndex){
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for(int index = startIndex; index >= 0; index--){
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byte bits = codes![index];
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if (bits != 0 && bits != Skip && bits != Repeat){
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return bits;
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}
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}
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return 0;
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}
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private int DetermineExtraBits(int length, int multiplier){
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var newExtra = new Stack<byte>();
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int remaining = length - Run.MinSpecialCodeLength;
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do{
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remaining = Math.DivRem(remaining, multiplier, out int remainder);
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newExtra.Push((byte)remainder);
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}while(--remaining >= 0);
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foreach(byte entry in newExtra){
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extra!.Enqueue(entry);
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}
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return newExtra.Count;
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}
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public int EncodeRepetition(int index, byte code, int length, int multiplier){
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int repetitions = DetermineExtraBits(length, multiplier);
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codes!.RemoveRange(index, length);
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codes!.InsertRange(index, Enumerable.Repeat(code, repetitions));
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return index + repetitions;
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}
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public RunResolution Build(){
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if (codes == null || extra == 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(codes, extra);
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codes = null;
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extra = null;
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return built;
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}
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}
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}
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// Data
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public byte Code { get; }
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private HuffmanTreeLengthCode(int code){
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this.Code = (byte)code;
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}
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public int CompareTo(HuffmanTreeLengthCode other){
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return Code.CompareTo(other.Code);
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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 HuffmanTreeLengthCode code &&
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Code == code.Code;
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}
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public override int GetHashCode(){
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return HashCode.Combine(Code);
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}
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public override string ToString(){
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return Code switch{
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Repeat => "Repeat",
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Skip => "Skip",
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_ => "Length = " + Code
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};
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}
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// Serialization
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internal static HuffmanNode<HuffmanTreeLengthCode> Read(IMarkedBitReader reader, int skippedAmount) => reader.MarkTitle("Bit Lengths", () => {
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byte[] bitCounts = new byte[Codes.Length];
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for(int index = skippedAmount, bitSpaceRemaining = LengthBitSpace; bitSpaceRemaining > 0 && index < Order.Length; index++){
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byte bitCount = reader.ReadValue(LengthTree, "bit length for code " + Order[index]);
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if (bitCount != 0){
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bitCounts[Order[index]] = bitCount;
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bitSpaceRemaining -= LengthBitSpace >> bitCount;
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}
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}
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var lengthEntries = Codes.Zip(bitCounts, HuffmanGenerator<HuffmanTreeLengthCode>.MakeEntry).ToArray();
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var filteredLengthEntries = lengthEntries.Where(entry => entry.Bits > 0).ToArray();
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return HuffmanGenerator<HuffmanTreeLengthCode>.FromBitCountsCanonical(filteredLengthEntries.Length == 0 ? lengthEntries : filteredLengthEntries);
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});
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internal static void Write(IBitWriter writer, IReadOnlyDictionary<byte, BitPath> lengthMap){
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int skippedAmount;
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if (!lengthMap.ContainsKey(Order[0]) && !lengthMap.ContainsKey(Order[1])){
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skippedAmount = lengthMap.ContainsKey(Order[2]) ? 2 : 3;
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}
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else{
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skippedAmount = 0;
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}
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writer.WriteChunk(2, skippedAmount);
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if (lengthMap.Count == 1){
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// if lengthMap has only 1 element, its path length is zero, which would omit the element completely
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// instead, a length of 3 is chosen because its path is encoded using only 2 bits
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lengthMap = new Dictionary<byte, BitPath>{
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{ lengthMap.Keys.First(), new BitPath(0, 3) }
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};
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}
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for(int index = skippedAmount, bitSpaceRemaining = LengthBitSpace; bitSpaceRemaining > 0 && index < Order.Length; index++){
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byte code = Order[index];
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byte length = lengthMap.TryGetValue(code, out BitPath path) ? path.Length : (byte)0;
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writer.WriteBits(LengthLookup[length]);
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if (length > 0){
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bitSpaceRemaining -= LengthBitSpace >> length;
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}
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}
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}
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}
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}
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