public override bool Equals(object obj) { if (obj == null) { return(false); } if (ReferenceEquals(this, obj)) { return(true); } if (!(obj is BSONCodeWScope)) { return(false); } BSONCodeWScope cw = (BSONCodeWScope)obj; if (_code != cw._code) { return(false); } return(base.Equals(obj)); }
public BSONValue FetchCurrentValue() { CheckDisposed(); if (_entryDataSkipped) { return(_entryDataValue); } _entryDataSkipped = true; switch (_ctype) { case BSONType.EOO: case BSONType.UNDEFINED: case BSONType.NULL: case BSONType.MAXKEY: case BSONType.MINKEY: _entryDataValue = new BSONValue(_ctype, _entryKey); break; case BSONType.OID: Debug.Assert(_entryLen == 12); _entryDataValue = new BSONValue(_ctype, _entryKey, new BSONOid(_input)); break; case BSONType.STRING: case BSONType.CODE: case BSONType.SYMBOL: { Debug.Assert(_entryLen - 1 >= 0); string sv = Encoding.UTF8.GetString(_input.ReadBytes(_entryLen - 1)); _entryDataValue = new BSONValue(_ctype, _entryKey, sv); var rb = _input.ReadByte(); Debug.Assert(rb == 0x00); //trailing zero byte break; } case BSONType.BOOL: _entryDataValue = new BSONValue(_ctype, _entryKey, _input.ReadBoolean()); break; case BSONType.INT: _entryDataValue = new BSONValue(_ctype, _entryKey, _input.ReadInt32()); break; case BSONType.OBJECT: case BSONType.ARRAY: { BSONDocument doc = (_ctype == BSONType.OBJECT ? new BSONDocument() : new BSONArray()); BSONIterator sit = new BSONIterator(this); while (sit.Next() != BSONType.EOO) { doc.Add(sit.FetchCurrentValue()); } _entryDataValue = new BSONValue(_ctype, _entryKey, doc); break; } case BSONType.DOUBLE: _entryDataValue = new BSONValue(_ctype, _entryKey, _input.ReadDouble()); break; case BSONType.LONG: _entryDataValue = new BSONValue(_ctype, _entryKey, _input.ReadInt64()); break; case BSONType.DATE: _entryDataValue = new BSONValue(_ctype, _entryKey, BSONConstants.Epoch.AddMilliseconds(_input.ReadInt64())); break; case BSONType.TIMESTAMP: { int inc = _input.ReadInt32(); int ts = _input.ReadInt32(); _entryDataValue = new BSONValue(_ctype, _entryKey, new BSONTimestamp(inc, ts)); break; } case BSONType.REGEX: { string re = _input.ReadCString(); string opts = _input.ReadCString(); _entryDataValue = new BSONValue(_ctype, _entryKey, new BSONRegexp(re, opts)); break; } case BSONType.BINDATA: { byte subtype = _input.ReadByte(); BSONBinData bd = new BSONBinData(subtype, _entryLen - 1, _input); _entryDataValue = new BSONValue(_ctype, _entryKey, bd); break; } case BSONType.DBREF: { //Unsupported DBREF! SkipData(true); _entryDataValue = new BSONValue(_ctype, _entryKey); break; } case BSONType.CODEWSCOPE: { int cwlen = _entryLen + 4; Debug.Assert(cwlen > 5); int clen = _input.ReadInt32(); //code length string code = Encoding.UTF8.GetString(_input.ReadBytes(clen)); BSONCodeWScope cw = new BSONCodeWScope(code); BSONIterator sit = new BSONIterator(_input, _input.ReadInt32()); while (sit.Next() != BSONType.EOO) { cw.Add(sit.FetchCurrentValue()); } _entryDataValue = new BSONValue(_ctype, _entryKey, cw); break; } } return(_entryDataValue); }
protected void WriteBSONValue(BSONValue bv, ExtBinaryWriter bw) { BSONType bt = bv.BSONType; switch (bt) { case BSONType.EOO: break; case BSONType.NULL: case BSONType.UNDEFINED: case BSONType.MAXKEY: case BSONType.MINKEY: WriteTypeAndKey(bv, bw); break; case BSONType.OID: { WriteTypeAndKey(bv, bw); BSONOid oid = (BSONOid)bv.Value; Debug.Assert(oid._bytes.Length == 12); bw.Write(oid._bytes); break; } case BSONType.STRING: case BSONType.CODE: case BSONType.SYMBOL: WriteTypeAndKey(bv, bw); bw.WriteBSONString((string)bv.Value); break; case BSONType.BOOL: WriteTypeAndKey(bv, bw); bw.Write((bool)bv.Value); break; case BSONType.INT: WriteTypeAndKey(bv, bw); bw.Write((int)bv.Value); break; case BSONType.LONG: WriteTypeAndKey(bv, bw); bw.Write((long)bv.Value); break; case BSONType.ARRAY: case BSONType.OBJECT: { BSONDocument doc = (BSONDocument)bv.Value; WriteTypeAndKey(bv, bw); doc.Serialize(bw.BaseStream); break; } case BSONType.DATE: { DateTime dt = (DateTime)bv.Value; var diff = dt.ToLocalTime() - BSONConstants.Epoch; long time = (long)Math.Floor(diff.TotalMilliseconds); WriteTypeAndKey(bv, bw); bw.Write(time); break; } case BSONType.DOUBLE: WriteTypeAndKey(bv, bw); bw.Write((double)bv.Value); break; case BSONType.REGEX: { BSONRegexp rv = (BSONRegexp)bv.Value; WriteTypeAndKey(bv, bw); bw.WriteCString(rv.Re ?? ""); bw.WriteCString(rv.Opts ?? ""); break; } case BSONType.BINDATA: { BSONBinData bdata = (BSONBinData)bv.Value; WriteTypeAndKey(bv, bw); bw.Write(bdata.Data.Length); bw.Write(bdata.Subtype); bw.Write(bdata.Data); break; } case BSONType.DBREF: //Unsupported DBREF! break; case BSONType.TIMESTAMP: { BSONTimestamp ts = (BSONTimestamp)bv.Value; WriteTypeAndKey(bv, bw); bw.Write(ts.Inc); bw.Write(ts.Ts); break; } case BSONType.CODEWSCOPE: { BSONCodeWScope cw = (BSONCodeWScope)bv.Value; WriteTypeAndKey(bv, bw); using (var cwwr = new ExtBinaryWriter(new MemoryStream())) { cwwr.WriteBSONString(cw.Code); cw.Scope.Serialize(cwwr.BaseStream); byte[] cwdata = ((MemoryStream)cwwr.BaseStream).ToArray(); bw.Write(cwdata.Length); bw.Write(cwdata); } break; } default: throw new InvalidBSONDataException("Unknown entry type: " + bt); } }
public BSONDocument SetCodeWScope(string key, BSONCodeWScope val) { return(SetBSONValue(new BSONValue(BSONType.CODEWSCOPE, key, val))); }
public BSONDocument SetCodeWScope(int idx, BSONCodeWScope val) { return(base.SetCodeWScope(idx.ToString(), val)); }
public BSONDocument SetCodeWScope(int idx, BSONCodeWScope val) { return base.SetCodeWScope(idx.ToString(), val); }
public BSONArray(BSONCodeWScope[] arr) { for (var i = 0; i < arr.Length; ++i) { SetCodeWScope(i, arr[i]); } }