Exemplo n.º 1
0
        public virtual void WarmupHashHashLongestMatch(int size, uint[] dict, global::encode.hash.HashLongestMatch hasher)
        {
            int _g1 = 0;

            while ((_g1 < size))
            {
                hasher.Store(dict, 0, _g1++);
            }
        }
Exemplo n.º 2
0
        public static void __hx_ctor_encode_hash_HashLongestMatch(global::encode.hash.HashLongestMatch __hx_this, int kBucketBits, int kBlockBits, int kNumLastDistancesToCheck)
        {
            unchecked {
                __hx_this.kBucketBits = kBucketBits;
                __hx_this.kBlockBits  = kBlockBits;
                __hx_this.kNumLastDistancesToCheck = kNumLastDistancesToCheck;
                __hx_this.kBucketSize = ((uint)((1 << kBucketBits)));
                __hx_this.kBlockSize  = ((uint)((1 << kBlockBits)));
                __hx_this.kBlockMask  = ((uint)((((1 << kBlockBits)) - 1)));
                __hx_this.num_        = ((uint[])(new uint[((int)(__hx_this.kBucketSize))]));
                __hx_this.buckets_    = ((int[][])(new int[((int)(__hx_this.kBucketSize))][]));
                {
                    int _g1 = 0;
                    int _g  = ((int)(__hx_this.kBucketSize));
                    while ((_g1 < _g))
                    {
                        ((int[][])(__hx_this.buckets_))[_g1++] = ((int[])(new int[((int)(__hx_this.kBlockSize))]));
                    }
                }

                __hx_this.Reset();
            }
        }
Exemplo n.º 3
0
        public override object __hx_setField(string field, int hash, object @value, bool handleProperties)
        {
            unchecked {
                switch (hash)
                {
                case 695309794:
                {
                    this.hash_h9 = ((global::encode.hash.HashLongestMatch)(@value));
                    return(@value);
                }


                case 695309793:
                {
                    this.hash_h8 = ((global::encode.hash.HashLongestMatch)(@value));
                    return(@value);
                }


                case 695309792:
                {
                    this.hash_h7 = ((global::encode.hash.HashLongestMatch)(@value));
                    return(@value);
                }


                case 695309791:
                {
                    this.hash_h6 = ((global::encode.hash.HashLongestMatch)(@value));
                    return(@value);
                }


                case 695309790:
                {
                    this.hash_h5 = ((global::encode.hash.HashLongestMatch)(@value));
                    return(@value);
                }


                case 695309789:
                {
                    this.hash_h4 = ((global::encode.hash.HashLongestMatchQuickly)(@value));
                    return(@value);
                }


                case 695309788:
                {
                    this.hash_h3 = ((global::encode.hash.HashLongestMatchQuickly)(@value));
                    return(@value);
                }


                case 695309787:
                {
                    this.hash_h2 = ((global::encode.hash.HashLongestMatchQuickly)(@value));
                    return(@value);
                }


                case 695309786:
                {
                    this.hash_h1 = ((global::encode.hash.HashLongestMatchQuickly)(@value));
                    return(@value);
                }


                default:
                {
                    return(base.__hx_setField(field, hash, @value, handleProperties));
                }
                }
            }
        }
Exemplo n.º 4
0
        public static void CreateBackwardReferences(int num_bytes, int position, uint[] ringbuffer, int ringbuffer_mask, double[] literal_cost, int literal_cost_mask, int max_backward_limit, int quality, global::encode.hash.Hashers hashers, int hash_type, int[] dist_cache, global::Array <int> last_insert_len, global::Array <object> commands, int commands_off, global::Array <int> num_commands, global::Array <int> num_literals)
        {
            unchecked {
                if ((quality > 9))
                {
                    global::encode.hash.HashLongestMatch hasher = hashers.hash_h9;
                    if (((num_bytes >= 3) && (position >= 3)))
                    {
                        hasher.Store(ringbuffer, ((position - 3) & ringbuffer_mask), (position - 3));
                        hasher.Store(ringbuffer, ((position - 2) & ringbuffer_mask), (position - 2));
                        hasher.Store(ringbuffer, ((position - 1) & ringbuffer_mask), (position - 1));
                    }

                    int[] num_matches = global::FunctionMalloc.mallocInt(num_bytes);
                    global::Array <object> matches = global::FunctionMalloc.mallocArray_encode_hash_BackwardMatch(typeof(global::encode.hash.BackwardMatch), (3 * num_bytes));
                    int cur_match_pos = 0;
                    int i             = 0;
                    while (((i + 3) < num_bytes))
                    {
                        int max_distance = ((int)(global::System.Math.Min(((double)((position + i))), ((double)(max_backward_limit)))));
                        if ((matches.length < (cur_match_pos + 325)))
                        {
                            matches.concat(global::FunctionMalloc.mallocArray_encode_hash_BackwardMatch(typeof(global::encode.hash.BackwardMatch), ((cur_match_pos + 325) - matches.length)));
                        }

                        hasher.FindAllMatches(ringbuffer, ringbuffer_mask, ((uint)((position + i))), ((uint)((num_bytes - i))), ((uint)(max_distance)), num_matches, i, matches, cur_match_pos);
                        hasher.Store(ringbuffer, ((position + i) & ringbuffer_mask), (position + i));
                        cur_match_pos += ((int)(((int[])(num_matches))[i]));
                        if ((((int)(((int[])(num_matches))[i])) == 1))
                        {
                            int match_len = ((global::encode.hash.BackwardMatch)(matches[(cur_match_pos - 1)])).length();
                            if ((match_len > 325))
                            {
                                int _g1 = 1;
                                while ((_g1 < match_len))
                                {
                                    ++_g1;
                                    ++i;
                                    hasher.Store(ringbuffer, ((position + i) & ringbuffer_mask), (position + i));
                                    ((int[])(num_matches))[i] = 0;
                                }
                            }
                        }

                        ++i;
                    }

                    int   orig_num_literals    = num_literals[0];
                    int   orig_last_insert_len = last_insert_len[0];
                    int[] orig_dist_cache      = ((int[])(new int[4]));
                    ((int[])(orig_dist_cache))[0] = ((int)(((int[])(dist_cache))[0]));
                    ((int[])(orig_dist_cache))[1] = ((int)(((int[])(dist_cache))[1]));
                    ((int[])(orig_dist_cache))[2] = ((int)(((int[])(dist_cache))[2]));
                    ((int[])(orig_dist_cache))[3] = ((int)(((int[])(dist_cache))[3]));
                    int orig_num_commands = num_commands[0];
                    {
                        int _g11 = 0;
                        while ((_g11 < 2))
                        {
                            global::encode.backward_references.ZopfliCostModel model = new global::encode.backward_references.ZopfliCostModel();
                            if ((_g11++ == 0))
                            {
                                model.SetFromLiteralCosts(num_bytes, position, literal_cost, literal_cost_mask);
                            }
                            else
                            {
                                model.SetFromCommands(num_bytes, position, ringbuffer, ringbuffer_mask, commands, ((commands_off + num_commands[0]) - orig_num_commands), orig_last_insert_len);
                            }

                            num_commands[0]    = orig_num_commands;
                            num_literals[0]    = orig_num_literals;
                            last_insert_len[0] = orig_last_insert_len;
                            global::DefaultFunctions.memcpy_Int(dist_cache, 0, orig_dist_cache, 0, 4);
                            global::encode.Backward_references.ZopfliIterate(num_bytes, position, ringbuffer, ringbuffer_mask, max_backward_limit, model, num_matches, matches, dist_cache, last_insert_len, commands, commands_off, num_commands, num_literals);
                        }
                    }

                    return;
                }

                switch (hash_type)
                {
                case 1:
                {
                    global::encode.Backward_references.CreateBackwardReferences_HashLongestMatchQuickly(num_bytes, position, ringbuffer, ringbuffer_mask, max_backward_limit, quality, hashers.hash_h1, dist_cache, last_insert_len, commands, commands_off, num_commands, num_literals);
                    break;
                }


                case 2:
                {
                    global::encode.Backward_references.CreateBackwardReferences_HashLongestMatchQuickly(num_bytes, position, ringbuffer, ringbuffer_mask, max_backward_limit, quality, hashers.hash_h2, dist_cache, last_insert_len, commands, commands_off, num_commands, num_literals);
                    break;
                }


                case 3:
                {
                    global::encode.Backward_references.CreateBackwardReferences_HashLongestMatchQuickly(num_bytes, position, ringbuffer, ringbuffer_mask, max_backward_limit, quality, hashers.hash_h3, dist_cache, last_insert_len, commands, commands_off, num_commands, num_literals);
                    break;
                }


                case 4:
                {
                    global::encode.Backward_references.CreateBackwardReferences_HashLongestMatchQuickly(num_bytes, position, ringbuffer, ringbuffer_mask, max_backward_limit, quality, hashers.hash_h4, dist_cache, last_insert_len, commands, commands_off, num_commands, num_literals);
                    break;
                }


                case 5:
                {
                    global::encode.Backward_references.CreateBackwardReferences_HashLongestMatch(num_bytes, position, ringbuffer, ringbuffer_mask, max_backward_limit, quality, hashers.hash_h5, dist_cache, last_insert_len, commands, commands_off, num_commands, num_literals);
                    break;
                }


                case 6:
                {
                    global::encode.Backward_references.CreateBackwardReferences_HashLongestMatch(num_bytes, position, ringbuffer, ringbuffer_mask, max_backward_limit, quality, hashers.hash_h6, dist_cache, last_insert_len, commands, commands_off, num_commands, num_literals);
                    break;
                }


                case 7:
                {
                    global::encode.Backward_references.CreateBackwardReferences_HashLongestMatch(num_bytes, position, ringbuffer, ringbuffer_mask, max_backward_limit, quality, hashers.hash_h7, dist_cache, last_insert_len, commands, commands_off, num_commands, num_literals);
                    break;
                }


                case 8:
                {
                    global::encode.Backward_references.CreateBackwardReferences_HashLongestMatch(num_bytes, position, ringbuffer, ringbuffer_mask, max_backward_limit, quality, hashers.hash_h8, dist_cache, last_insert_len, commands, commands_off, num_commands, num_literals);
                    break;
                }


                case 9:
                {
                    global::encode.Backward_references.CreateBackwardReferences_HashLongestMatch(num_bytes, position, ringbuffer, ringbuffer_mask, max_backward_limit, quality, hashers.hash_h9, dist_cache, last_insert_len, commands, commands_off, num_commands, num_literals);
                    break;
                }


                default:
                {
                    break;
                }
                }
            }
        }
Exemplo n.º 5
0
        public static void CreateBackwardReferences_HashLongestMatch(int num_bytes, int position, uint[] ringbuffer, int ringbuffer_mask, int max_backward_limit, int quality, global::encode.hash.HashLongestMatch hasher, int[] dist_cache, global::Array <int> last_insert_len, global::Array <object> commands, int commands_off, global::Array <int> num_commands, global::Array <int> num_literals)
        {
            unchecked {
                if (((num_bytes >= 3) && (position >= 3)))
                {
                    hasher.Store(ringbuffer, ((position - 3) & ringbuffer_mask), (position - 3));
                    hasher.Store(ringbuffer, ((position - 2) & ringbuffer_mask), (position - 2));
                    hasher.Store(ringbuffer, ((position - 1) & ringbuffer_mask), (position - 1));
                }

                int orig_commands_off = commands_off;
                int insert_length     = last_insert_len[0];
                int i      = (position & ringbuffer_mask);
                int i_diff = (position - i);
                int i_end  = (i + num_bytes);
                int random_heuristics_window_size = (((quality < 9)) ? (64) : (512));
                int apply_random_heuristics       = (i + random_heuristics_window_size);
                while (((i + 3) < i_end))
                {
                    int max_length   = (i_end - i);
                    int max_distance = ((int)(global::System.Math.Min(((double)((i + i_diff))), ((double)(max_backward_limit)))));
                    global::Array <int>    best_len      = new global::Array <int>(new int[] { 0 });
                    global::Array <int>    best_len_code = new global::Array <int>(new int[] { 0 });
                    global::Array <int>    best_dist     = new global::Array <int>(new int[] { 0 });
                    global::Array <double> best_score    = new global::Array <double>(new double[] { 4.0 });
                    bool match_found = hasher.FindLongestMatch(ringbuffer, ringbuffer_mask, dist_cache, ((uint)((i + i_diff))), ((uint)(max_length)), ((uint)(max_distance)), best_len, best_len_code, best_dist, best_score);
                    if (match_found)
                    {
                        int delayed_backward_references_in_row = 0;
                        while (true)
                        {
                            --max_length;
                            global::Array <int>    best_len_2      = new global::Array <int>(new int[] { (((quality < 5)) ? (((int)(global::System.Math.Min(((double)((best_len[0] - 1))), ((double)(max_length)))))) : (0)) });
                            global::Array <int>    best_len_code_2 = new global::Array <int>(new int[] { 0 });
                            global::Array <int>    best_dist_2     = new global::Array <int>(new int[] { 0 });
                            global::Array <double> best_score_2    = new global::Array <double>(new double[] { 4.0 });
                            max_distance = ((int)(global::System.Math.Min(((double)(((i + i_diff) + 1))), ((double)(max_backward_limit)))));
                            hasher.Store(ringbuffer, i, (i + i_diff));
                            match_found = hasher.FindLongestMatch(ringbuffer, ringbuffer_mask, dist_cache, ((uint)(((i + i_diff) + 1))), ((uint)(max_length)), ((uint)(max_distance)), best_len_2, best_len_code_2, best_dist_2, best_score_2);
                            if ((match_found && (best_score_2[0] >= (best_score[0] + 7.0))))
                            {
                                ++i;
                                ++insert_length;
                                best_len[0]      = best_len_2[0];
                                best_len_code[0] = best_len_code_2[0];
                                best_dist[0]     = best_dist_2[0];
                                best_score[0]    = best_score_2[0];
                                if ((++delayed_backward_references_in_row < 4))
                                {
                                    continue;
                                }
                            }

                            break;
                        }

                        apply_random_heuristics = ((i + (2 * best_len[0])) + random_heuristics_window_size);
                        max_distance            = ((int)(global::System.Math.Min(((double)((i + i_diff))), ((double)(max_backward_limit)))));
                        int distance_code = global::encode.Backward_references.ComputeDistanceCode(best_dist[0], max_distance, quality, dist_cache);
                        if (((best_dist[0] <= max_distance) && (distance_code > 0)))
                        {
                            ((int[])(dist_cache))[3] = ((int)(((int[])(dist_cache))[2]));
                            ((int[])(dist_cache))[2] = ((int)(((int[])(dist_cache))[1]));
                            ((int[])(dist_cache))[1] = ((int)(((int[])(dist_cache))[0]));
                            ((int[])(dist_cache))[0] = best_dist[0];
                        }

                        global::encode.command.Command command = new global::encode.command.Command();
                        command.Command4(insert_length, best_len[0], best_len_code[0], distance_code);
                        commands[commands_off++] = command;
                        num_literals[0]         += insert_length;
                        insert_length            = 0;
                        {
                            int _g1 = 1;
                            int _g  = best_len[0];
                            while ((_g1 < _g))
                            {
                                int j = _g1++;
                                hasher.Store(ringbuffer, (i + j), ((i + i_diff) + j));
                            }
                        }

                        i += best_len[0];
                    }
                    else
                    {
                        ++insert_length;
                        hasher.Store(ringbuffer, i, (i + i_diff));
                        ++i;
                        if ((i > apply_random_heuristics))
                        {
                            if ((i > (apply_random_heuristics + (4 * random_heuristics_window_size))))
                            {
                                int i_jump = ((int)(global::System.Math.Min(((double)((i + 16))), ((double)((i_end - 4))))));
                                while ((i < i_jump))
                                {
                                    hasher.Store(ringbuffer, i, (i + i_diff));
                                    insert_length += 4;
                                    i             += 4;
                                }
                            }
                            else
                            {
                                int i_jump1 = ((int)(global::System.Math.Min(((double)((i + 8))), ((double)((i_end - 3))))));
                                while ((i < i_jump1))
                                {
                                    hasher.Store(ringbuffer, i, (i + i_diff));
                                    insert_length += 2;
                                    i             += 2;
                                }
                            }
                        }
                    }
                }

                insert_length     += (i_end - i);
                last_insert_len[0] = insert_length;
                num_commands[0]   += (commands_off - orig_commands_off);
            }
        }