Files
wehub-resource-sync 498b235461
Build and test / Build and test AMD64 Ubuntu 22.04 (push) Failing after 0s
Publish Builder / amazonlinux2023 (push) Failing after 1s
Build and test / UT for Go (push) Has been skipped
Publish KRTE Images / KRTE (push) Failing after 1s
Build and test / Integration Test (push) Has been skipped
Build and test / Upload Code Coverage (push) Has been skipped
Publish Builder / rockylinux9 (push) Failing after 1s
Publish Builder / ubuntu22.04 (push) Failing after 0s
Publish Builder / ubuntu24.04 (push) Failing after 0s
Publish Gpu Builder / publish-gpu-builder (push) Failing after 1s
Publish Test Images / PyTest (push) Failing after 0s
Build and test / UT for Cpp (push) Has been cancelled
chore: import upstream snapshot with attribution
2026-07-13 12:31:17 +08:00

676 lines
23 KiB
Go

// 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 milvusclient
import (
"encoding/json"
"fmt"
"strings"
"github.com/cockroachdb/errors"
"github.com/samber/lo"
"github.com/milvus-io/milvus-proto/go-api/v3/milvuspb"
"github.com/milvus-io/milvus-proto/go-api/v3/schemapb"
"github.com/milvus-io/milvus/client/v2/column"
"github.com/milvus-io/milvus/client/v2/entity"
"github.com/milvus-io/milvus/client/v2/row"
"github.com/milvus-io/milvus/pkg/v3/util/typeutil"
)
type InsertOption interface {
InsertRequest(coll *entity.Collection) (*milvuspb.InsertRequest, error)
CollectionName() string
WriteBackPKs(schema *entity.Schema, pks column.Column) error
}
type UpsertOption interface {
UpsertRequest(coll *entity.Collection) (*milvuspb.UpsertRequest, error)
CollectionName() string
}
var (
_ UpsertOption = (*columnBasedDataOption)(nil)
_ InsertOption = (*columnBasedDataOption)(nil)
)
type columnBasedDataOption struct {
collName string
partitionName string
namespace *string
columns []column.Column
partialUpdate bool
// deferredErr captures construction-time errors from builder helpers (e.g. WithStructArrayColumn)
// so they surface on InsertRequest/UpsertRequest rather than panicking in the chain.
deferredErr error
// partialOps carries per-field FieldPartialUpdateOp directives. Keyed by
// field name. Entries with REPLACE (or nil) are treated as no-ops and are
// not serialized onto the wire.
partialOps map[string]*schemapb.FieldPartialUpdateOp
}
func (opt *columnBasedDataOption) WriteBackPKs(_ *entity.Schema, _ column.Column) error {
// column based data option need not write back pk
return nil
}
func (opt *columnBasedDataOption) processInsertColumns(colSchema *entity.Schema, columns ...column.Column) ([]*schemapb.FieldData, int, error) {
// setup dynamic related var
isDynamic := colSchema.EnableDynamicField
inputDynamicColumn := lo.FindOrElse(columns, nil, func(col column.Column) bool {
return col.FieldData().GetIsDynamic()
})
// check columns and field matches
var rowSize int
mNameField := make(map[string]*entity.Field)
for _, field := range colSchema.Fields {
mNameField[field.Name] = field
}
mNameColumn := make(map[string]column.Column)
var dynamicColumns []column.Column
for _, col := range columns {
_, dup := mNameColumn[col.Name()]
if dup {
return nil, 0, fmt.Errorf("duplicated column %s found", col.Name())
}
l := col.Len()
if rowSize == 0 {
rowSize = l
} else if rowSize != l {
return nil, 0, errors.New("column size not match")
}
field, has := mNameField[col.Name()]
if !has {
if !isDynamic {
return nil, 0, fmt.Errorf("field %s does not exist in collection %s", col.Name(), colSchema.CollectionName)
}
if inputDynamicColumn != nil {
if col == inputDynamicColumn {
continue
}
return nil, 0, errors.New("cannot pass pre-composed dynamic json column with other dynamic columns")
}
// add to dynamic column list for further processing
dynamicColumns = append(dynamicColumns, col)
continue
}
// make non-nullable created column fit nullable field definition
if field.Nullable {
col.SetNullable(true)
}
mNameColumn[col.Name()] = col
if col.Type() != field.DataType {
return nil, 0, fmt.Errorf("param column %s has type %v but collection field definition is %v", col.Name(), col.Type(), field.DataType)
}
if field.DataType == entity.FieldTypeFloatVector || field.DataType == entity.FieldTypeBinaryVector ||
field.DataType == entity.FieldTypeFloat16Vector || field.DataType == entity.FieldTypeBFloat16Vector ||
field.DataType == entity.FieldTypeInt8Vector {
dim := 0
switch column := col.(type) {
case *column.ColumnFloatVector:
dim = column.Dim()
case *column.ColumnBinaryVector:
dim = column.Dim()
case *column.ColumnFloat16Vector:
dim = column.Dim()
case *column.ColumnBFloat16Vector:
dim = column.Dim()
case *column.ColumnInt8Vector:
dim = column.Dim()
}
if fmt.Sprintf("%d", dim) != field.TypeParams[entity.TypeParamDim] {
return nil, 0, fmt.Errorf("params column %s vector dim %d not match collection definition, which has dim of %s", field.Name, dim, field.TypeParams[entity.TypeParamDim])
}
}
}
// missing field shall be checked in server side
// // check all fixed field pass value
// for _, field := range colSchema.Fields {
// _, has := mNameColumn[field.Name]
// if !has &&
// !field.AutoID && !field.IsDynamic {
// return nil, 0, fmt.Errorf("field %s not passed", field.Name)
// }
// }
fieldsData := make([]*schemapb.FieldData, 0, len(mNameColumn)+1)
for _, fixedColumn := range mNameColumn {
// make sure the field data in compact mode
fixedColumn.CompactNullableValues()
fieldsData = append(fieldsData, fixedColumn.FieldData())
}
if inputDynamicColumn != nil {
fieldsData = append(fieldsData, inputDynamicColumn.FieldData())
}
if len(dynamicColumns) > 0 {
// use empty column name here
col, err := opt.mergeDynamicColumns("", rowSize, dynamicColumns)
if err != nil {
return nil, 0, err
}
fieldsData = append(fieldsData, col)
}
return fieldsData, rowSize, nil
}
func (opt *columnBasedDataOption) mergeDynamicColumns(dynamicName string, rowSize int, columns []column.Column) (*schemapb.FieldData, error) {
values := make([][]byte, 0, rowSize)
for i := 0; i < rowSize; i++ {
m := make(map[string]interface{})
for _, column := range columns {
// range guaranteed
m[column.Name()], _ = column.Get(i)
}
bs, err := json.Marshal(m)
if err != nil {
return nil, err
}
values = append(values, bs)
}
return &schemapb.FieldData{
Type: schemapb.DataType_JSON,
FieldName: dynamicName,
Field: &schemapb.FieldData_Scalars{
Scalars: &schemapb.ScalarField{
Data: &schemapb.ScalarField_JsonData{
JsonData: &schemapb.JSONArray{
Data: values,
},
},
},
},
IsDynamic: true,
}, nil
}
func (opt *columnBasedDataOption) WithColumns(columns ...column.Column) *columnBasedDataOption {
opt.columns = append(opt.columns, columns...)
return opt
}
func (opt *columnBasedDataOption) WithBoolColumn(colName string, data []bool) *columnBasedDataOption {
column := column.NewColumnBool(colName, data)
return opt.WithColumns(column)
}
func (opt *columnBasedDataOption) WithInt8Column(colName string, data []int8) *columnBasedDataOption {
column := column.NewColumnInt8(colName, data)
return opt.WithColumns(column)
}
func (opt *columnBasedDataOption) WithInt16Column(colName string, data []int16) *columnBasedDataOption {
column := column.NewColumnInt16(colName, data)
return opt.WithColumns(column)
}
func (opt *columnBasedDataOption) WithInt32Column(colName string, data []int32) *columnBasedDataOption {
column := column.NewColumnInt32(colName, data)
return opt.WithColumns(column)
}
func (opt *columnBasedDataOption) WithInt64Column(colName string, data []int64) *columnBasedDataOption {
column := column.NewColumnInt64(colName, data)
return opt.WithColumns(column)
}
func (opt *columnBasedDataOption) WithVarcharColumn(colName string, data []string) *columnBasedDataOption {
column := column.NewColumnVarChar(colName, data)
return opt.WithColumns(column)
}
func (opt *columnBasedDataOption) WithFloatVectorColumn(colName string, dim int, data [][]float32) *columnBasedDataOption {
column := column.NewColumnFloatVector(colName, dim, data)
return opt.WithColumns(column)
}
func (opt *columnBasedDataOption) WithFloat16VectorColumn(colName string, dim int, data [][]float32) *columnBasedDataOption {
f16v := make([][]byte, 0, len(data))
for i := 0; i < len(data); i++ {
f16v = append(f16v, typeutil.Float32ArrayToFloat16Bytes(data[i]))
}
column := column.NewColumnFloat16Vector(colName, dim, f16v)
return opt.WithColumns(column)
}
func (opt *columnBasedDataOption) WithBFloat16VectorColumn(colName string, dim int, data [][]float32) *columnBasedDataOption {
bf16v := make([][]byte, 0, len(data))
for i := 0; i < len(data); i++ {
bf16v = append(bf16v, typeutil.Float32ArrayToBFloat16Bytes(data[i]))
}
column := column.NewColumnBFloat16Vector(colName, dim, bf16v)
return opt.WithColumns(column)
}
func (opt *columnBasedDataOption) WithBinaryVectorColumn(colName string, dim int, data [][]byte) *columnBasedDataOption {
column := column.NewColumnBinaryVector(colName, dim, data)
return opt.WithColumns(column)
}
func (opt *columnBasedDataOption) WithInt8VectorColumn(colName string, dim int, data [][]int8) *columnBasedDataOption {
column := column.NewColumnInt8Vector(colName, dim, data)
return opt.WithColumns(column)
}
// WithStructArrayColumn appends a struct-array column built from a row-based representation,
// inferring the per-sub-field array type from the corresponding field in `structSchema`.
//
// `rows` is a per-collection-row list; each entry is a map keyed by sub-field name. The value
// for a scalar sub-field must be `[]<T>` (e.g. []int32, []string); the value for a vector
// sub-field must be `[][]float32` / `[][]byte` / `[][]int8` matching the vector type.
//
// Example:
//
// structSchema := entity.NewStructSchema().
// WithField(entity.NewField().WithName("clip_str").WithDataType(entity.FieldTypeVarChar).WithMaxLength(256)).
// WithField(entity.NewField().WithName("clip_emb").WithDataType(entity.FieldTypeFloatVector).WithDim(8))
// rows := []map[string]any{
// {"clip_str": []string{"a", "b"}, "clip_emb": [][]float32{v1, v2}},
// {"clip_str": []string{"c"}, "clip_emb": [][]float32{v3}},
// }
// opt.WithStructArrayColumn("clips", structSchema, rows)
func (opt *columnBasedDataOption) WithStructArrayColumn(colName string, structSchema *entity.StructSchema, rows []map[string]any) *columnBasedDataOption {
col, err := buildStructArrayColumn(colName, structSchema, rows)
if err != nil {
// Defer error reporting to InsertRequest/UpsertRequest so the builder chain stays valid.
if opt.deferredErr == nil {
opt.deferredErr = errors.Wrapf(err, "WithStructArrayColumn(%q)", colName)
}
return opt
}
return opt.WithColumns(col)
}
func buildStructArrayColumn(colName string, structSchema *entity.StructSchema, rows []map[string]any) (column.Column, error) {
if structSchema == nil {
return nil, errors.New("structSchema is required for WithStructArrayColumn")
}
subColumns := make([]column.Column, 0, len(structSchema.Fields))
for _, sub := range structSchema.Fields {
subColumn, err := newStructSubColumn(sub)
if err != nil {
return nil, err
}
subColumns = append(subColumns, subColumn)
}
structCol := column.NewColumnStructArray(colName, subColumns)
for i, row := range rows {
if err := structCol.AppendValue(row); err != nil {
return nil, errors.Wrapf(err, "row %d", i)
}
}
return structCol, nil
}
func newStructSubColumn(field *entity.Field) (column.Column, error) {
switch field.DataType {
case entity.FieldTypeBool:
return column.NewColumnBoolArray(field.Name, nil), nil
case entity.FieldTypeInt8:
return column.NewColumnInt8Array(field.Name, nil), nil
case entity.FieldTypeInt16:
return column.NewColumnInt16Array(field.Name, nil), nil
case entity.FieldTypeInt32:
return column.NewColumnInt32Array(field.Name, nil), nil
case entity.FieldTypeInt64:
return column.NewColumnInt64Array(field.Name, nil), nil
case entity.FieldTypeFloat:
return column.NewColumnFloatArray(field.Name, nil), nil
case entity.FieldTypeDouble:
return column.NewColumnDoubleArray(field.Name, nil), nil
case entity.FieldTypeVarChar, entity.FieldTypeString:
return column.NewColumnVarCharArray(field.Name, nil), nil
case entity.FieldTypeFloatVector:
dim, err := field.GetDim()
if err != nil {
return nil, errors.Wrapf(err, "sub-field %q", field.Name)
}
return column.NewColumnFloatVectorArray(field.Name, int(dim), nil), nil
case entity.FieldTypeFloat16Vector:
dim, err := field.GetDim()
if err != nil {
return nil, errors.Wrapf(err, "sub-field %q", field.Name)
}
return column.NewColumnFloat16VectorArray(field.Name, int(dim), nil), nil
case entity.FieldTypeBFloat16Vector:
dim, err := field.GetDim()
if err != nil {
return nil, errors.Wrapf(err, "sub-field %q", field.Name)
}
return column.NewColumnBFloat16VectorArray(field.Name, int(dim), nil), nil
case entity.FieldTypeBinaryVector:
dim, err := field.GetDim()
if err != nil {
return nil, errors.Wrapf(err, "sub-field %q", field.Name)
}
return column.NewColumnBinaryVectorArray(field.Name, int(dim), nil), nil
case entity.FieldTypeInt8Vector:
dim, err := field.GetDim()
if err != nil {
return nil, errors.Wrapf(err, "sub-field %q", field.Name)
}
return column.NewColumnInt8VectorArray(field.Name, int(dim), nil), nil
default:
return nil, errors.Newf("unsupported struct sub-field type %v for field %q", field.DataType, field.Name)
}
}
func (opt *columnBasedDataOption) WithPartition(partitionName string) *columnBasedDataOption {
opt.partitionName = partitionName
return opt
}
// WithNamespace scopes the write to a collection namespace. Primary keys are
// still collection-scoped for delete/upsert tombstones, so callers must keep
// primary keys unique across namespaces in the same collection.
func (opt *columnBasedDataOption) WithNamespace(namespace string) *columnBasedDataOption {
opt.namespace = &namespace
return opt
}
func (opt *columnBasedDataOption) WithPartialUpdate(partialUpdate bool) *columnBasedDataOption {
opt.partialUpdate = partialUpdate
return opt
}
// WithArrayAppend declares that the Array field `fieldName` should be merged
// with ARRAY_APPEND semantics during an Upsert. The server implicitly enables
// partial_update when any non-REPLACE op is present, so callers do not need
// to also invoke WithPartialUpdate(true).
func (opt *columnBasedDataOption) WithArrayAppend(fieldName string) *columnBasedDataOption {
return opt.WithFieldPartialOp(fieldName, schemapb.FieldPartialUpdateOp_ARRAY_APPEND)
}
// WithArrayRemove declares that the Array field `fieldName` should be merged
// with ARRAY_REMOVE semantics during an Upsert. See WithArrayAppend for the
// implicit partial_update promotion.
func (opt *columnBasedDataOption) WithArrayRemove(fieldName string) *columnBasedDataOption {
return opt.WithFieldPartialOp(fieldName, schemapb.FieldPartialUpdateOp_ARRAY_REMOVE)
}
// WithFieldPartialOp attaches an explicit FieldPartialUpdateOp to the field
// with name `fieldName`. Intended for advanced callers; typical users should
// prefer the op-specific helpers (WithArrayAppend, WithArrayRemove).
func (opt *columnBasedDataOption) WithFieldPartialOp(fieldName string, op schemapb.FieldPartialUpdateOp_OpType) *columnBasedDataOption {
if op == schemapb.FieldPartialUpdateOp_REPLACE {
// REPLACE is the default; clear any prior directive rather than
// transmitting a no-op message.
if opt.partialOps != nil {
delete(opt.partialOps, fieldName)
}
return opt
}
if opt.partialOps == nil {
opt.partialOps = make(map[string]*schemapb.FieldPartialUpdateOp)
}
opt.partialOps[fieldName] = &schemapb.FieldPartialUpdateOp{FieldName: fieldName, Op: op}
return opt
}
// buildFieldOps materializes the recorded FieldPartialUpdateOp directives
// into a proto-ready slice. Only non-REPLACE ops are emitted — REPLACE is
// the on-wire default and emitting it would waste bytes on every upsert.
//
// The returned slice is independent of the input fieldsData; a field
// referenced by an op that was not in fieldsData is still emitted so the
// server can surface a validation error rather than silently drop the
// op. Client-side filtering would hide user typos.
func (opt *columnBasedDataOption) buildFieldOps() []*schemapb.FieldPartialUpdateOp {
if len(opt.partialOps) == 0 {
return nil
}
out := make([]*schemapb.FieldPartialUpdateOp, 0, len(opt.partialOps))
for _, op := range opt.partialOps {
out = append(out, op)
}
return out
}
func (opt *columnBasedDataOption) CollectionName() string {
return opt.collName
}
func (opt *columnBasedDataOption) InsertRequest(coll *entity.Collection) (*milvuspb.InsertRequest, error) {
if opt.deferredErr != nil {
return nil, opt.deferredErr
}
fieldsData, rowNum, err := opt.processInsertColumns(coll.Schema, opt.columns...)
if err != nil {
return nil, err
}
return &milvuspb.InsertRequest{
CollectionName: opt.collName,
PartitionName: opt.partitionName,
Namespace: opt.namespace,
FieldsData: fieldsData,
NumRows: uint32(rowNum),
SchemaTimestamp: coll.UpdateTimestamp,
}, nil
}
func (opt *columnBasedDataOption) UpsertRequest(coll *entity.Collection) (*milvuspb.UpsertRequest, error) {
if opt.deferredErr != nil {
return nil, opt.deferredErr
}
fieldsData, rowNum, err := opt.processInsertColumns(coll.Schema, opt.columns...)
if err != nil {
return nil, err
}
// Materialize any WithArrayAppend/WithArrayRemove/WithFieldPartialOp
// directives into UpsertRequest.field_ops. Auto-promote partial_update
// when any non-REPLACE op is present.
fieldOps := opt.buildFieldOps()
partialUpdate := opt.partialUpdate
if len(fieldOps) > 0 {
partialUpdate = true
}
return &milvuspb.UpsertRequest{
CollectionName: opt.collName,
PartitionName: opt.partitionName,
Namespace: opt.namespace,
FieldsData: fieldsData,
NumRows: uint32(rowNum),
SchemaTimestamp: coll.UpdateTimestamp,
PartialUpdate: partialUpdate,
FieldOps: fieldOps,
}, nil
}
func NewColumnBasedInsertOption(collName string, columns ...column.Column) *columnBasedDataOption {
return &columnBasedDataOption{
columns: columns,
collName: collName,
// leave partition name empty, using default partition
}
}
type rowBasedDataOption struct {
*columnBasedDataOption
rows []any
keepAutoIDPk bool // keep user passed auto id pk field
}
func NewRowBasedInsertOption(collName string, rows ...any) *rowBasedDataOption {
return &rowBasedDataOption{
columnBasedDataOption: &columnBasedDataOption{
collName: collName,
},
rows: rows,
keepAutoIDPk: false,
}
}
func (opt *rowBasedDataOption) WithPartition(partitionName string) *rowBasedDataOption {
opt.columnBasedDataOption.WithPartition(partitionName)
return opt
}
func (opt *rowBasedDataOption) WithNamespace(namespace string) *rowBasedDataOption {
opt.columnBasedDataOption.WithNamespace(namespace)
return opt
}
func (opt *rowBasedDataOption) WithPartialUpdate(partialUpdate bool) *rowBasedDataOption {
opt.columnBasedDataOption.WithPartialUpdate(partialUpdate)
return opt
}
func (opt *rowBasedDataOption) WithArrayAppend(fieldName string) *rowBasedDataOption {
opt.columnBasedDataOption.WithArrayAppend(fieldName)
return opt
}
func (opt *rowBasedDataOption) WithArrayRemove(fieldName string) *rowBasedDataOption {
opt.columnBasedDataOption.WithArrayRemove(fieldName)
return opt
}
func (opt *rowBasedDataOption) WithFieldPartialOp(fieldName string, op schemapb.FieldPartialUpdateOp_OpType) *rowBasedDataOption {
opt.columnBasedDataOption.WithFieldPartialOp(fieldName, op)
return opt
}
func (opt *rowBasedDataOption) InsertRequest(coll *entity.Collection) (*milvuspb.InsertRequest, error) {
columns, err := row.AnyToColumns(opt.rows, opt.keepAutoIDPk, coll.Schema)
if err != nil {
return nil, err
}
opt.columnBasedDataOption.columns = columns
fieldsData, rowNum, err := opt.processInsertColumns(coll.Schema, opt.columns...)
if err != nil {
return nil, err
}
return &milvuspb.InsertRequest{
CollectionName: opt.collName,
PartitionName: opt.partitionName,
Namespace: opt.namespace,
FieldsData: fieldsData,
NumRows: uint32(rowNum),
}, nil
}
func (opt *rowBasedDataOption) UpsertRequest(coll *entity.Collection) (*milvuspb.UpsertRequest, error) {
columns, err := row.AnyToColumns(opt.rows, opt.keepAutoIDPk, coll.Schema)
if err != nil {
return nil, err
}
opt.columnBasedDataOption.columns = columns
fieldsData, rowNum, err := opt.processInsertColumns(coll.Schema, opt.columns...)
if err != nil {
return nil, err
}
fieldOps := opt.buildFieldOps()
partialUpdate := opt.partialUpdate
if len(fieldOps) > 0 {
partialUpdate = true
}
return &milvuspb.UpsertRequest{
CollectionName: opt.collName,
PartitionName: opt.partitionName,
Namespace: opt.namespace,
FieldsData: fieldsData,
NumRows: uint32(rowNum),
PartialUpdate: partialUpdate,
FieldOps: fieldOps,
}, nil
}
func (opt *rowBasedDataOption) WriteBackPKs(sch *entity.Schema, pks column.Column) error {
pkField := sch.PKField()
// not auto id, return
if pkField == nil || !pkField.AutoID {
return nil
}
if len(opt.rows) != pks.Len() {
return errors.New("input row count is not equal to result pk length")
}
for i, r := range opt.rows {
// index range checked
v, _ := pks.Get(i)
err := row.SetField(r, pkField.Name, v)
if err != nil {
return err
}
}
return nil
}
func (opt *rowBasedDataOption) WithKeepAutoIDPk(keepPk bool) *rowBasedDataOption {
opt.keepAutoIDPk = keepPk
return opt
}
type DeleteOption interface {
Request() *milvuspb.DeleteRequest
}
type deleteOption struct {
collectionName string
partitionName string
namespace *string
expr string
}
func (opt *deleteOption) Request() *milvuspb.DeleteRequest {
return &milvuspb.DeleteRequest{
CollectionName: opt.collectionName,
PartitionName: opt.partitionName,
Namespace: opt.namespace,
Expr: opt.expr,
}
}
func (opt *deleteOption) WithExpr(expr string) *deleteOption {
opt.expr = expr
return opt
}
func (opt *deleteOption) WithInt64IDs(fieldName string, ids []int64) *deleteOption {
opt.expr = fmt.Sprintf("%s in %s", fieldName, strings.Join(strings.Fields(fmt.Sprint(ids)), ","))
return opt
}
func (opt *deleteOption) WithStringIDs(fieldName string, ids []string) *deleteOption {
opt.expr = fmt.Sprintf("%s in [%s]", fieldName, strings.Join(lo.Map(ids, func(id string, _ int) string { return fmt.Sprintf("\"%s\"", id) }), ","))
return opt
}
func (opt *deleteOption) WithPartition(partitionName string) *deleteOption {
opt.partitionName = partitionName
return opt
}
// WithNamespace scopes the delete request to a collection namespace. Delete
// tombstones are primary-key based, so callers must keep primary keys unique
// across namespaces in the same collection.
func (opt *deleteOption) WithNamespace(namespace string) *deleteOption {
opt.namespace = &namespace
return opt
}
func NewDeleteOption(collectionName string) *deleteOption {
return &deleteOption{collectionName: collectionName}
}