public override object __hx_setField(string field, int hash, object @value, bool handleProperties) { unchecked { switch (hash) { case 1327133892: { this.storage_ = ((uint[])(@value)); return(@value); } case 1934413114: { this.storage_size_ = ((int)(global::haxe.lang.Runtime.toInt(@value))); return(@value); } case 786269185: { this.prev_byte2_ = ((uint)(global::haxe.lang.Runtime.toInt(@value))); return(@value); } case 90195659: { this.prev_byte_ = ((uint)(global::haxe.lang.Runtime.toInt(@value))); return(@value); } case 1659886955: { this.last_byte_bits_ = ((uint)(global::haxe.lang.Runtime.toInt(@value))); return(@value); } case 1338359406: { this.last_byte_ = ((uint)(global::haxe.lang.Runtime.toInt(@value))); return(@value); } case 1854114270: { this.saved_dist_cache_ = ((int[])(@value)); return(@value); } case 35939030: { this.dist_cache_ = ((int[])(@value)); return(@value); } case 1044314085: { this.last_processed_pos_ = ((int)(global::haxe.lang.Runtime.toInt(@value))); return(@value); } case 282430831: { this.last_flush_pos_ = ((int)(global::haxe.lang.Runtime.toInt(@value))); return(@value); } case 537950791: { this.last_insert_len_ = ((int)(global::haxe.lang.Runtime.toInt(@value))); return(@value); } case 1358280002: { this.num_literals_ = ((int)(global::haxe.lang.Runtime.toInt(@value))); return(@value); } case 204352542: { this.num_commands_ = ((int)(global::haxe.lang.Runtime.toInt(@value))); return(@value); } case 1285881495: { this.commands_ = ((global::Array <object>)(global::Array <object> .__hx_cast <object>(((global::Array)(@value))))); return(@value); } case 770104548: { this.cmd_buffer_size_ = ((int)(global::haxe.lang.Runtime.toInt(@value))); return(@value); } case 194189137: { this.literal_cost_mask_ = ((int)(global::haxe.lang.Runtime.toInt(@value))); return(@value); } case 332919650: { this.literal_cost_ = ((double[])(@value)); return(@value); } case 439261615: { this.ringbuffer_ = ((global::encode.RingBuffer)(@value)); return(@value); } case 1752889312: { this.input_pos_ = ((int)(global::haxe.lang.Runtime.toInt(@value))); return(@value); } case 953005556: { this.hash_type_ = ((int)(global::haxe.lang.Runtime.toInt(@value))); return(@value); } case 502309127: { this.hashers_ = ((global::encode.hash.Hashers)(@value)); return(@value); } case 812293353: { this.max_backward_distance_ = ((int)(global::haxe.lang.Runtime.toInt(@value))); return(@value); } case 1579213401: { this.params_ = ((global::encode.encode.BrotliParams)(@value)); return(@value); } default: { return(base.__hx_setField(field, hash, @value, handleProperties)); } } } }
public static void __hx_ctor_encode_hash_Hashers(global::encode.hash.Hashers __hx_this) { }
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; } } } }