//
// The link map allow to have as key the types:
// STRING,SHORT,INTEGER,LONG,BYTE,DATE,DECIMAL,DATETIME,DATA,FLOAT,DOUBLE
// the serialization of the linkmap is a list of entry
//
// +----------------------------+
// | values:link_map_entry[] |
// +----------------------------+
//
// link_map_entry structure
//
// +--------------+------------------+------------+
// | keyType:byte | keyValue:byte[] | link:LINK |
// +--------------+------------------+------------+
//
// keyType - is the type of the key, can be only one of the listed type.
// keyValue - the value of the key serialized with the serializer of the type
// link - the link value stored with the formant of a LINK
//
// TODO: right now only supporting string keys, but need to support the
// datatypes listed above (also for EmbeddedMaps)
//
func (serde ORecordSerializerV0) writeLinkMap(buf *obuf.WriteBuf, m map[string]*oschema.OLink) error {
// number of entries in the map
err := varint.EncodeAndWriteVarInt32(buf, int32(len(m)))
if err != nil {
return oerror.NewTrace(err)
}
for k, v := range m {
// keyType
err = rw.WriteByte(buf, byte(oschema.STRING))
if err != nil {
return oerror.NewTrace(err)
}
// keyValue
err = varint.WriteString(buf, k)
if err != nil {
return oerror.NewTrace(err)
}
// link
err = serde.writeLink(buf, v)
if err != nil {
return oerror.NewTrace(err)
}
}
return nil
}
//
// writeEmbeddedMap serializes the EMBEDDEDMAP type. Currently, OrientDB only uses string
// types for the map keys, so that is an assumption of this method as well.
//
func (serde ORecordSerializerV0) writeEmbeddedMap(buf *obuf.WriteBuf, m oschema.OEmbeddedMap) error {
// number of entries in the map
err := varint.EncodeAndWriteVarInt32(buf, int32(m.Len()))
if err != nil {
return oerror.NewTrace(err)
}
ptrPos := make([]int, 0, m.Len()) // position in buf where data ptr int needs to be written
// TODO: do the map entries have to be written in any particular order? I will assume no for now
keys, vals, types := m.All()
/* ---[ write embedded map header ]--- */
for i, k := range keys {
// key type
err = rw.WriteByte(buf, byte(oschema.STRING))
if err != nil {
return oerror.NewTrace(err)
}
// write the key value
err = varint.WriteString(buf, k)
if err != nil {
return oerror.NewTrace(err)
}
ptrPos = append(ptrPos, buf.Len())
buf.Skip(4) // placeholder integer for data ptr
dataType := types[i]
if dataType == oschema.UNKNOWN {
dataType = getDataType(vals[i]) // TODO: not sure this is necessary
}
// write data type of the data
err = rw.WriteByte(buf, byte(dataType))
if err != nil {
return oerror.NewTrace(err)
}
}
/* ---[ write embedded map data values ]--- */
for i := 0; i < len(vals); i++ {
currPos := buf.Len()
buf.Seek(uint(ptrPos[i]))
err = rw.WriteInt(buf, int32(currPos))
if err != nil {
return oerror.NewTrace(err)
}
buf.Seek(uint(currPos))
err = serde.writeDataValue(buf, vals[i], types[i])
if err != nil {
return oerror.NewTrace(err)
}
}
return nil
}
//
// serializeDocument writes the classname and the serialized record
// (header and data sections) of the ODocument to the obuf.WriteBuf.
//
// Because this method writes the classname but NOT the serialization
// version, this method is safe for recursive calls for EMBEDDED types.
//
func (serde ORecordSerializerV0) serializeDocument(wbuf *obuf.WriteBuf, doc *oschema.ODocument) error {
err := varint.WriteString(wbuf, doc.Classname)
if err != nil {
return oerror.NewTrace(err)
}
ogl.Debugf("serdebuf A: %v\n", wbuf.Bytes()) // DEBUG
ogl.Debugf("doc A: %v\n", doc) // DEBUG
return serde.writeSerializedRecord(wbuf, doc)
}
//
// writeDataValue is part of the Serialize functionality
// TODO: change name to writeSingleValue ?
//
func (serde ORecordSerializerV0) writeDataValue(buf *obuf.WriteBuf, value interface{}, datatype oschema.ODataType) (err error) {
switch datatype {
case oschema.STRING:
err = varint.WriteString(buf, value.(string))
ogl.Debugf("DEBUG STR: -writeDataVal val: %v\n", value.(string)) // DEBUG
case oschema.BOOLEAN:
err = rw.WriteBool(buf, value.(bool))
ogl.Debugf("DEBUG BOOL: -writeDataVal val: %v\n", value.(bool)) // DEBUG
case oschema.INTEGER:
var i32val int32
i32val, err = toInt32(value)
if err == nil {
err = varint.EncodeAndWriteVarInt32(buf, i32val) // TODO: are serialized integers ALWAYS varint encoded?
ogl.Debugf("DEBUG INT: -writeDataVal val: %v\n", i32val) // DEBUG
}
case oschema.SHORT:
// TODO: needs toInt16 conversion fn
err = varint.EncodeAndWriteVarInt32(buf, int32(value.(int16)))
ogl.Debugf("DEBUG SHORT: -writeDataVal val: %v\n", value.(int16)) // DEBUG
case oschema.LONG:
var i64val int64
i64val, err = toInt64(value)
if err == nil {
err = varint.EncodeAndWriteVarInt64(buf, i64val) // TODO: are serialized longs ALWAYS varint encoded?
ogl.Debugf("DEBUG LONG: -writeDataVal val: %v\n", i64val) // DEBUG
}
case oschema.FLOAT:
var f32 float32
f32, err = toFloat32(value)
if err == nil {
err = rw.WriteFloat(buf, f32)
}
ogl.Debugf("DEBUG FLOAT: -writeDataVal val: %v\n", value) // DEBUG
case oschema.DOUBLE:
var f64 float64
f64, err = toFloat64(value)
if err == nil {
err = rw.WriteDouble(buf, f64)
}
ogl.Debugf("DEBUG DOUBLE: -writeDataVal val: %v\n", value.(float64)) // DEBUG
case oschema.DATETIME:
err = writeDateTime(buf, value)
ogl.Debugf("DEBUG DATETIME: -writeDataVal val: %v\n", value) // DEBUG
case oschema.DATE:
err = writeDate(buf, value)
ogl.Debugf("DEBUG DATE: -writeDataVal val: %v\n", value) // DEBUG
case oschema.BINARY:
err = varint.WriteBytes(buf, value.([]byte))
ogl.Debugf("DEBUG BINARY: -writeDataVal val: %v\n", value.([]byte)) // DEBUG
case oschema.EMBEDDED:
err = serde.serializeDocument(buf, value.(*oschema.ODocument))
ogl.Debugf("DEBUG EMBEDDED: -writeDataVal val: %v\n", value) // DEBUG
case oschema.EMBEDDEDLIST:
err = serde.serializeEmbeddedCollection(buf, value.(oschema.OEmbeddedList))
ogl.Debugf("DEBUG EMBD-LIST: -writeDataVal val: %v\n", value) // DEBUG
case oschema.EMBEDDEDSET:
err = serde.serializeEmbeddedCollection(buf, value.(oschema.OEmbeddedList))
ogl.Debugf("DEBUG EMBD-SET: -writeDataVal val: %v\n", value) // DEBUG
case oschema.EMBEDDEDMAP:
err = serde.writeEmbeddedMap(buf, value.(oschema.OEmbeddedMap))
ogl.Debugf("DEBUG EMBEDDEDMAP: val %v\n", value.(oschema.OEmbeddedMap))
case oschema.LINK:
err = serde.writeLink(buf, value.(*oschema.OLink))
ogl.Debugf("DEBUG LINK: val %v\n", value) // DEBUG
case oschema.LINKLIST:
err = serde.writeLinkList(buf, value.([]*oschema.OLink))
ogl.Debugf("DEBUG LINKLIST: val %v\n", value) // DEBUG
case oschema.LINKSET:
err = serde.writeLinkList(buf, value.([]*oschema.OLink))
ogl.Debugf("DEBUG LINKSET: val %v\n", value) // DEBUG
case oschema.LINKMAP:
err = serde.writeLinkMap(buf, value.(map[string]*oschema.OLink))
ogl.Debugf("DEBUG LINKMAP: val %v\n", value) // DEBUG
case oschema.BYTE:
err = rw.WriteByte(buf, value.(byte))
ogl.Debugf("DEBUG BYTE: -writeDataVal val: %v\n", value.(byte)) // DEBUG
case oschema.DECIMAL:
// TODO: impl me -> Java client uses BigDecimal for this
panic("ORecordSerializerV0#writeDataValue DECIMAL NOT YET IMPLEMENTED")
case oschema.CUSTOM:
// TODO: impl me
panic("ORecordSerializerV0#writeDataValue CUSTOM NOT YET IMPLEMENTED")
case oschema.LINKBAG:
panic("ORecordSerializerV0#writeDataValue LINKBAG NOT YET IMPLEMENTED")
default:
// ANY and TRANSIENT are do nothing ops
}
return err
}
//
// In Progress attempt to rewrite writeSerializedRecord and related fns
// using a seekable/skipping WriteBuf
//
func (serde ORecordSerializerV0) writeSerializedRecord(wbuf *obuf.WriteBuf, doc *oschema.ODocument) (err error) {
nfields := len(doc.FieldNames())
ptrPos := make([]int, 0, nfields) // position in buf where data ptr int needs to be written
currDB := serde.dbc.GetCurrDB()
oclass, ok := currDB.Classes[doc.Classname]
docFields := doc.GetFields()
for _, fld := range docFields {
var oprop *oschema.OProperty
if ok {
oprop = oclass.Properties[fld.Name]
}
// FROM THE JAVA CLIENT:
// if (properties[i] != null) {
// OVarIntSerializer.write(bytes, (properties[i].getId() + 1) * -1);
// if (properties[i].getType() != OType.ANY)
// pos[i] = bytes.alloc(OIntegerSerializer.INT_SIZE);
// else
// pos[i] = bytes.alloc(OIntegerSerializer.INT_SIZE + 1); // TODO: why does ANY required an additional byte?
// } else {
// writeString(bytes, entry.getKey());
// pos[i] = bytes.alloc(OIntegerSerializer.INT_SIZE + 1);
if oprop != nil {
// if property is known in the global properties, then
// just write its encoded id
varint.EncodeAndWriteVarInt32(wbuf, encodeFieldIDForHeader(oprop.ID))
ptrPos = append(ptrPos, wbuf.Len())
wbuf.Skip(4)
// Note: no need to write property type when writing property ID
} else {
// property Name
err = varint.WriteString(wbuf, fld.Name)
if err != nil {
return oerror.NewTrace(err)
}
ptrPos = append(ptrPos, wbuf.Len())
wbuf.Skip(4)
// property Type
err = rw.WriteByte(wbuf, byte(fld.Type))
if err != nil {
return oerror.NewTrace(err)
}
}
}
wbuf.WriteByte(0) // End of Header sentinel
// now write out the data values
for i, fld := range docFields {
currPos := wbuf.Len()
wbuf.Seek(uint(ptrPos[i]))
err = rw.WriteInt(wbuf, int32(currPos))
if err != nil {
return oerror.NewTrace(err)
}
wbuf.Seek(uint(currPos))
err = serde.writeDataValue(wbuf, fld.Value, fld.Type)
if err != nil {
return oerror.NewTrace(err)
}
}
return nil
}
