const flatbuffers = {}; flatbuffers.BinaryReader = class { static open(data, offset) { offset = offset || 0; if (data && data.length >= (offset + 8)) { const position = data instanceof Uint8Array ? -1 : data.position; const reader = data instanceof Uint8Array ? new flatbuffers.BufferReader(data) : new flatbuffers.StreamReader(data); reader.root = reader.int32(offset) + offset; let value = false; if (reader.root > 0 && reader.root < reader.length) { const buffer = reader.read(offset + 4, 4); reader.identifier = buffer.every((c) => c >= 32 && c <= 128) ? String.fromCharCode(...buffer) : ''; const vtable = reader.int32(reader.root); if (vtable < 0 || (vtable > 4 && vtable < 1024)) { const start = reader.root - vtable; if (start > 0 && (start + 4) < reader.length) { const last = reader.int16(start) + start; if (last < reader.length) { const max = reader.int16(start + 2); if (max > 0 && (max & 1) === 0) { const offsets = []; for (let i = start + 4; i < last; i += 2) { const offset = reader.int16(i); offsets.push(offset); } value = max > Math.max(...offsets); } } } } } if (position !== -1) { data.seek(position); } if (value) { return reader; } } return null; } bool(offset) { return Boolean(this.int8(offset)); } bool_(position, offset, defaultValue) { offset = this.__offset(position, offset); return offset ? this.bool(position + offset) : defaultValue; } int8(offset) { return this.uint8(offset) << 24 >> 24; } int8_(position, offset, defaultValue) { offset = this.__offset(position, offset); return offset ? this.int8(position + offset) : defaultValue; } uint8_(position, offset, defaultValue) { offset = this.__offset(position, offset); return offset ? this.uint8(position + offset) : defaultValue; } int16_(position, offset, defaultValue) { offset = this.__offset(position, offset); return offset ? this.int16(position + offset) : defaultValue; } uint16_(position, offset, defaultValue) { offset = this.__offset(position, offset); return offset ? this.uint16(position + offset) : defaultValue; } int32_(position, offset, defaultValue) { offset = this.__offset(position, offset); return offset ? this.int32(position + offset) : defaultValue; } uint32_(position, offset, defaultValue) { offset = this.__offset(position, offset); return offset ? this.uint32(position + offset) : defaultValue; } int64_(position, offset, defaultValue) { offset = this.__offset(position, offset); return offset ? this.int64(position + offset) : defaultValue; } uint64_(position, offset, defaultValue) { offset = this.__offset(position, offset); return offset ? this.uint64(position + offset) : defaultValue; } float32_(position, offset, defaultValue) { offset = this.__offset(position, offset); return offset ? this.float32(position + offset) : defaultValue; } float64_(position, offset, defaultValue) { offset = this.__offset(position, offset); return offset ? this.float64(position + offset) : defaultValue; } string(offset, encoding) { offset += this.int32(offset); const length = this.int32(offset); offset += 4; if (encoding === 1) { return this.read(offset, length); } let text = ''; for (let i = 0; i < length;) { let codePoint = 0; const a = this.uint8(offset + i++); if (a < 0xC0) { codePoint = a; } else { const b = this.uint8(offset + i++); if (a < 0xE0) { codePoint = ((a & 0x1F) << 6) | (b & 0x3F); } else { const c = this.uint8(offset + i++); if (a < 0xF0) { codePoint = ((a & 0x0F) << 12) | ((b & 0x3F) << 6) | (c & 0x3F); } else { const d = this.uint8(offset + i++); codePoint = ((a & 0x07) << 18) | ((b & 0x3F) << 12) | ((c & 0x3F) << 6) | (d & 0x3F); } } } // Encode UTF-16 if (codePoint < 0x10000) { text += String.fromCharCode(codePoint); } else { codePoint -= 0x10000; text += String.fromCharCode((codePoint >> 10) + 0xD800, (codePoint & ((1 << 10) - 1)) + 0xDC00); } } return text; } string_(position, offset, defaultValue) { offset = this.__offset(position, offset); return offset ? this.string(position + offset) : defaultValue; } bools_(position, offset) { offset = this.__offset(position, offset); if (offset) { const length = this.__vector_len(position + offset); offset = this.__vector(position + offset); const array = new Array(length); for (let i = 0; i < length; i++) { array[i] = this.uint8(offset + i) ? true : false; } return array; } return []; } int64s_(position, offset) { offset = this.__offset(position, offset); if (offset) { const length = this.__vector_len(position + offset); offset = this.__vector(position + offset); const array = new Array(length); for (let i = 0; i < length; i++) { array[i] = this.int64(offset + (i << 3)); } return array; } return []; } uint64s_(position, offset) { offset = this.__offset(position, offset); if (offset) { const length = this.__vector_len(position + offset); offset = this.__vector(position + offset); const array = new Array(length); for (let i = 0; i < length; i++) { array[i] = this.uint64(offset + (i << 3)); } return array; } return []; } strings_(position, offset) { offset = this.__offset(position, offset); if (offset) { const length = this.__vector_len(position + offset); offset = this.__vector(position + offset); const array = new Array(length); for (let i = 0; i < length; i++) { array[i] = this.string(offset + i * 4); } return array; } return []; } struct(position, offset, type) { offset = this.__offset(position, offset); return offset ? type.decode(this, position + offset) : null; } table(position, offset, type) { offset = this.__offset(position, offset); return offset ? type.decode(this, this.__indirect(position + offset)) : null; } union(position, offset, type) { const type_offset = this.__offset(position, offset); const union_type = type_offset ? this.uint8(position + type_offset) : 0; offset = this.__offset(position, offset + 2); return offset ? type.decode(this, this.__union(position + offset), union_type) : null; } array(position, offset, type) { offset = this.__offset(position, offset); if (offset) { const length = this.__vector_len(position + offset); offset = this.__vector(position + offset); const buffer = this.read(offset, length * type.BYTES_PER_ELEMENT); return new type(buffer.buffer, buffer.byteOffset, length); } return new type(0); } unions(/* position, offset, decode */) { return new flatbuffers.Error('Not implemented.'); } structs(position, offset, type) { offset = this.__offset(position, offset); const length = offset ? this.__vector_len(position + offset) : 0; const list = new Array(length); for (let i = 0; i < length; i++) { list[i] = type.decode(this, this.__vector(position + offset) + i * 8); } return list; } tables(position, offset, type) { offset = this.__offset(position, offset); const length = offset ? this.__vector_len(position + offset) : 0; const list = new Array(length); for (let i = 0; i < length; i++) { list[i] = type.decode(this, this.__indirect(this.__vector(position + offset) + i * 4)); } return list; } __offset(bb_pos, vtableOffset) { const vtable = bb_pos - this.int32(bb_pos); return vtableOffset < this.int16(vtable) ? this.int16(vtable + vtableOffset) : 0; } __indirect(offset) { return offset + this.int32(offset); } __vector(offset) { return offset + this.int32(offset) + 4; } __vector_len(offset) { return this.int32(offset + this.int32(offset)); } __union(offset) { return offset + this.int32(offset); } }; flatbuffers.BufferReader = class extends flatbuffers.BinaryReader { constructor(data) { super(); this.length = data.length; this._buffer = data; this._view = new DataView(data.buffer, data.byteOffset, data.byteLength); } read(offset, length) { return this._buffer.slice(offset, offset + length); } uint8(offset) { return this._buffer[offset]; } int16(offset) { return this._view.getInt16(offset, true); } uint16(offset) { return this._view.getUint16(offset, true); } int32(offset) { return this._view.getInt32(offset, true); } uint32(offset) { return this._view.getUint32(offset, true); } int64(offset) { return this._view.getBigInt64(offset, true); } uint64(offset) { return this._view.getBigUint64(offset, true); } float32(offset) { return this._view.getFloat32(offset, true); } float64(offset) { return this._view.getFloat64(offset, true); } }; flatbuffers.StreamReader = class extends flatbuffers.BinaryReader { constructor(stream) { super(); this._length = stream.length; this._stream = stream; this._size = 0x10000000; this._offset = 0; this._window = Math.min(0x1000, stream.length); const buffer = this._stream.peek(this._window); this._buffer = buffer; this._view = new DataView(buffer.buffer, buffer.byteOffset, buffer.byteLength); this._chunk = -1; } get length() { return this._length; } read(offset, length) { const buffer = new Uint8Array(length); this._read(buffer, offset); return buffer; } uint8(offset) { const position = this._fill(offset, 1); return this._view.getUint8(position); } int16(offset) { const position = this._fill(offset, 2); return this._view.getInt16(position, true); } uint16(offset) { const position = this._fill(offset, 2); return this._view.getUint16(position, true); } int32(offset) { const position = this._fill(offset, 4); return this._view.getInt32(position, true); } uint32(offset) { const position = this._fill(offset, 4); return this._view.getUint32(position, true); } int64(offset) { const position = this._fill(offset, 8); return this._view.getBigInt64(position, true); } uint64(offset) { const position = this._fill(offset, 8); return this._view.getBigUint64(position, true); } float32(offset) { const position = this._fill(offset, 4); return this._view.getFloat32(position, true); } float64(offset) { const position = this._fill(offset, 8); return this._view.getFloat64(position, true); } _fill(offset, length) { if (offset + length > this._length) { throw new Error(`Expected ${offset + length - this._length} more bytes. The file might be corrupted. Unexpected end of file.`); } if (offset < this._offset || offset + length > this._offset + this._window) { const remainder = offset % this. _size; const last = this._last; if (this._chunk !== -1) { this._last = [this._chunk, this._buffer, this._view]; } if (remainder + length > this._size) { const buffer = new Uint8Array(length); this._read(buffer, length); this._chunk = -1; this._offset = offset; this._window = length; this._buffer = buffer; this._view = new DataView(buffer.buffer, buffer.byteOffset, buffer.byteLength); } else { const chunk = Math.floor(offset / this._size); this._offset = chunk * this._size; this._window = Math.min(this._length - this._offset, this._size); if (last && last[0] === chunk) { [this._chunk, this._buffer, this._view] = last; } else { this._chunk = chunk; this._stream.seek(this._offset); const buffer = this._stream.read(this._window); this._buffer = buffer; this._view = new DataView(buffer.buffer, buffer.byteOffset, buffer.byteLength); this._stream.seek(0); } } } return offset - this._offset; } _read(buffer, offset) { const length = buffer.length; if (offset < this._offset || offset + length > this._offset + this._window) { this._stream.seek(offset); const data = this._stream.read(length); buffer.set(data, 0); this._stream.seek(0); } else { offset -= this._offset; const data = this._buffer.subarray(offset, offset + length); buffer.set(data, 0); } } }; flatbuffers.TextReader = class { static open(obj) { return new flatbuffers.TextReader(obj); } constructor(obj) { this._root = obj; } get root() { return this._root; } int64(obj, defaultValue) { return obj === undefined ? defaultValue : BigInt(obj); } uint64(obj, defaultValue) { return obj === undefined ? defaultValue : BigInt(obj); } value(obj, defaultValue) { return obj === undefined ? defaultValue : obj; } object(obj, type) { return obj === undefined ? obj : type.decodeText(this, obj); } array(obj, type) { type = type || Array; if (Array.isArray(obj)) { const length = obj.length; const target = new type(length); for (let i = 0; i < length; i++) { target[i] = obj[i]; } return target; } if (obj) { throw new flatbuffers.Error('Inalid value array.'); } return new type(0); } objects(obj, type) { if (Array.isArray(obj)) { const target = new Array(obj.length); for (let i = 0; i < obj.length; i++) { target[i] = type.decodeText(this, obj[i]); } return target; } if (!obj) { return []; } throw new flatbuffers.Error('Inalid object array.'); } }; flatbuffers.Error = class extends Error { constructor(message) { super(message); this.name = 'FlatBuffers Error'; this.message = message; } }; export const BinaryReader = flatbuffers.BinaryReader; export const TextReader = flatbuffers.TextReader;