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milvus/internal/storage/data_sorter.go
Buqian Zheng 3c80083f51
feat: [Sparse Float Vector] add sparse vector support to milvus components (#30630) 
add sparse float vector support to different milvus components,
including proxy, data node to receive and write sparse float vectors to
binlog, query node to handle search requests, index node to build index
for sparse float column, etc.

https://github.com/milvus-io/milvus/issues/29419

---------

Signed-off-by: Buqian Zheng <zhengbuqian@gmail.com>
2024-03-13 14:32:54 -07:00

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// Licensed to the LF AI & Data foundation under one
// or more contributor license agreements. See the NOTICE file
// distributed with this work for additional information
// regarding copyright ownership. The ASF licenses this file
// to you under the Apache License, Version 2.0 (the
// "License"); you may not use this file except in compliance
// with the License. You may obtain a copy of the License at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
package storage
import (
"github.com/milvus-io/milvus-proto/go-api/v2/schemapb"
"github.com/milvus-io/milvus/pkg/common"
)
// DataSorter sorts insert data
type DataSorter struct {
InsertCodec *InsertCodec
InsertData *InsertData
}
// getRowIDFieldData returns auto generated row id Field
func (ds *DataSorter) getRowIDFieldData() FieldData {
if data, ok := ds.InsertData.Data[common.RowIDField]; ok {
return data
}
return nil
}
// Len returns length of the insert data
func (ds *DataSorter) Len() int {
idField := ds.getRowIDFieldData()
if idField == nil {
return 0
}
fieldData, ok := idField.(*Int64FieldData)
if !ok {
return 0
}
return len(fieldData.Data)
}
// Swap swaps each field's i-th and j-th element
func (ds *DataSorter) Swap(i, j int) {
for _, field := range ds.InsertCodec.Schema.Schema.Fields {
singleData, has := ds.InsertData.Data[field.FieldID]
if !has {
continue
}
switch field.DataType {
case schemapb.DataType_Bool:
data := singleData.(*BoolFieldData).Data
data[i], data[j] = data[j], data[i]
case schemapb.DataType_Int8:
data := singleData.(*Int8FieldData).Data
data[i], data[j] = data[j], data[i]
case schemapb.DataType_Int16:
data := singleData.(*Int16FieldData).Data
data[i], data[j] = data[j], data[i]
case schemapb.DataType_Int32:
data := singleData.(*Int32FieldData).Data
data[i], data[j] = data[j], data[i]
case schemapb.DataType_Int64:
data := singleData.(*Int64FieldData).Data
data[i], data[j] = data[j], data[i]
case schemapb.DataType_Float:
data := singleData.(*FloatFieldData).Data
data[i], data[j] = data[j], data[i]
case schemapb.DataType_Double:
data := singleData.(*DoubleFieldData).Data
data[i], data[j] = data[j], data[i]
case schemapb.DataType_String, schemapb.DataType_VarChar:
data := singleData.(*StringFieldData).Data
data[i], data[j] = data[j], data[i]
case schemapb.DataType_BinaryVector:
data := singleData.(*BinaryVectorFieldData).Data
dim := singleData.(*BinaryVectorFieldData).Dim
// dim for binary vector must be multiplier of 8, simple verion for swapping:
steps := dim / 8
for idx := 0; idx < steps; idx++ {
data[i*steps+idx], data[j*steps+idx] = data[j*steps+idx], data[i*steps+idx]
}
case schemapb.DataType_FloatVector:
data := singleData.(*FloatVectorFieldData).Data
dim := singleData.(*FloatVectorFieldData).Dim
for idx := 0; idx < dim; idx++ {
data[i*dim+idx], data[j*dim+idx] = data[j*dim+idx], data[i*dim+idx]
}
case schemapb.DataType_Float16Vector:
data := singleData.(*Float16VectorFieldData).Data
dim := singleData.(*Float16VectorFieldData).Dim
steps := dim * 2
for idx := 0; idx < steps; idx++ {
data[i*steps+idx], data[j*steps+idx] = data[j*steps+idx], data[i*steps+idx]
}
case schemapb.DataType_BFloat16Vector:
data := singleData.(*BFloat16VectorFieldData).Data
dim := singleData.(*BFloat16VectorFieldData).Dim
steps := dim * 2
for idx := 0; idx < steps; idx++ {
data[i*steps+idx], data[j*steps+idx] = data[j*steps+idx], data[i*steps+idx]
}
case schemapb.DataType_Array:
data := singleData.(*ArrayFieldData).Data
data[i], data[j] = data[j], data[i]
case schemapb.DataType_JSON:
data := singleData.(*JSONFieldData).Data
data[i], data[j] = data[j], data[i]
case schemapb.DataType_SparseFloatVector:
fieldData := singleData.(*SparseFloatVectorFieldData)
fieldData.Contents[i], fieldData.Contents[j] = fieldData.Contents[j], fieldData.Contents[i]
default:
errMsg := "undefined data type " + string(field.DataType)
panic(errMsg)
}
}
}
// Less returns whether i-th entry is less than j-th entry, using ID field comparison result
func (ds *DataSorter) Less(i, j int) bool {
idField := ds.getRowIDFieldData()
if idField == nil {
return true // to skip swap
}
data, ok := idField.(*Int64FieldData)
if !ok || data.Data == nil {
return true // to skip swap
}
l := len(data.Data)
// i,j range check
if i < 0 || i >= l || j < 0 || j > l {
return true // to skip swap
}
ids := data.Data
return ids[i] < ids[j]
}
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