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chore: import upstream snapshot with attribution
2026-07-13 12:31:17 +08:00

1259 lines
37 KiB
Go

package proxy
import (
"testing"
"github.com/stretchr/testify/assert"
"github.com/stretchr/testify/require"
"github.com/stretchr/testify/suite"
"github.com/milvus-io/milvus-proto/go-api/v3/schemapb"
"github.com/milvus-io/milvus/internal/agg"
"github.com/milvus-io/milvus/pkg/v3/proto/internalpb"
"github.com/milvus-io/milvus/pkg/v3/proto/planpb"
"github.com/milvus-io/milvus/pkg/v3/util/paramtable"
)
type MilvusAggReduceSuite struct {
suite.Suite
}
func TestMilvusAggReduceSingleColumn(t *testing.T) {
groupByFieldIds := make([]int64, 1)
groupByFieldIds[0] = 101
aggregates := make([]*planpb.Aggregate, 1)
aggregates[0] = &planpb.Aggregate{
Op: planpb.AggregateOp_sum,
FieldId: 102,
}
results := make([]*internalpb.RetrieveResults, 2)
{
fieldData1 := &schemapb.FieldData{
Type: schemapb.DataType_Int16,
Field: &schemapb.FieldData_Scalars{
Scalars: &schemapb.ScalarField{
Data: &schemapb.ScalarField_IntData{
IntData: &schemapb.IntArray{
Data: []int32{2, 3, 4, 8, 11},
},
},
},
},
}
fieldData2 := &schemapb.FieldData{
Type: schemapb.DataType_Int64,
Field: &schemapb.FieldData_Scalars{
Scalars: &schemapb.ScalarField{
Data: &schemapb.ScalarField_LongData{
LongData: &schemapb.LongArray{
Data: []int64{12, 33, 24, 48, 11},
},
},
},
},
}
results[0] = &internalpb.RetrieveResults{
FieldsData: []*schemapb.FieldData{fieldData1, fieldData2},
}
}
{
fieldData1 := &schemapb.FieldData{
Type: schemapb.DataType_Int16,
Field: &schemapb.FieldData_Scalars{
Scalars: &schemapb.ScalarField{
Data: &schemapb.ScalarField_IntData{
IntData: &schemapb.IntArray{
Data: []int32{2, 3, 5, 9, 11},
},
},
},
},
}
fieldData2 := &schemapb.FieldData{
Type: schemapb.DataType_Int64,
Field: &schemapb.FieldData_Scalars{
Scalars: &schemapb.ScalarField{
Data: &schemapb.ScalarField_LongData{
LongData: &schemapb.LongArray{
Data: []int64{12, 33, 15, 18, 11},
},
},
},
},
}
results[1] = &internalpb.RetrieveResults{
FieldsData: []*schemapb.FieldData{fieldData1, fieldData2},
}
}
userOutputFields := []string{"c1", "sum(c2)"}
groupByFields := []string{"c1"}
sumAggs, err := agg.NewAggregate("sum", 102, "sum(c2)", schemapb.DataType_Int64)
assert.NoError(t, err)
aggs := []agg.AggregateBase{sumAggs[0]}
aggFieldMap, err := agg.NewAggregationFieldMap(userOutputFields, groupByFields, aggs)
require.NoError(t, err)
// Create schema matching FieldData: field 101 (Int16) for groupBy, field 102 (Int64) for aggregate
schema := &schemapb.CollectionSchema{
Name: "test_collection",
Fields: []*schemapb.FieldSchema{
{
FieldID: 101,
Name: "c1",
DataType: schemapb.DataType_Int16,
},
{
FieldID: 102,
Name: "c2",
DataType: schemapb.DataType_Int64,
},
},
}
aggReducer := NewMilvusAggReducer(groupByFieldIds, aggregates, aggFieldMap, 10, schema)
reducedRes, err := aggReducer.Reduce(results)
assert.Equal(t, len(reducedRes.GetFieldsData()), len(userOutputFields))
assert.NoError(t, err)
assert.NotNil(t, reducedRes)
actualGroupsKeys := reducedRes.GetFieldsData()[0].GetScalars().GetIntData().GetData()
actualAggs := reducedRes.GetFieldsData()[1].GetScalars().GetLongData().GetData()
groupLen := len(actualGroupsKeys)
aggLen := len(actualAggs)
assert.Equal(t, groupLen, aggLen)
expectGroupAggMap := map[int32]int64{2: 24, 3: 66, 4: 24, 8: 48, 11: 22, 5: 15, 9: 18}
assert.Equal(t, len(expectGroupAggMap), groupLen)
for i := 0; i < groupLen; i++ {
groupKey := actualGroupsKeys[i]
actualAgg := actualAggs[i]
expectAggVal, exist := expectGroupAggMap[groupKey]
assert.True(t, exist)
assert.Equal(t, expectAggVal, actualAgg)
}
}
func TestMilvusAggReduceMultiColumn(t *testing.T) {
groupByFieldIds := make([]int64, 2)
groupByFieldIds[0] = 101
groupByFieldIds[1] = 102
aggregates := make([]*planpb.Aggregate, 1)
aggregates[0] = &planpb.Aggregate{
Op: planpb.AggregateOp_sum,
FieldId: 103,
}
results := make([]*internalpb.RetrieveResults, 2)
{
fieldData1 := &schemapb.FieldData{
Type: schemapb.DataType_Int16,
Field: &schemapb.FieldData_Scalars{
Scalars: &schemapb.ScalarField{
Data: &schemapb.ScalarField_IntData{
IntData: &schemapb.IntArray{
Data: []int32{2, 3, 4, 8, 11},
},
},
},
},
}
fieldData2 := &schemapb.FieldData{
Type: schemapb.DataType_VarChar,
Field: &schemapb.FieldData_Scalars{
Scalars: &schemapb.ScalarField{
Data: &schemapb.ScalarField_StringData{
StringData: &schemapb.StringArray{
Data: []string{"a", "b", "c", "d", "e"},
},
},
},
},
}
fieldData3 := &schemapb.FieldData{
Type: schemapb.DataType_Int64,
Field: &schemapb.FieldData_Scalars{
Scalars: &schemapb.ScalarField{
Data: &schemapb.ScalarField_LongData{
LongData: &schemapb.LongArray{
Data: []int64{12, 33, 24, 48, 11},
},
},
},
},
}
results[0] = &internalpb.RetrieveResults{
FieldsData: []*schemapb.FieldData{fieldData1, fieldData2, fieldData3},
}
}
{
fieldData1 := &schemapb.FieldData{
Type: schemapb.DataType_Int16,
Field: &schemapb.FieldData_Scalars{
Scalars: &schemapb.ScalarField{
Data: &schemapb.ScalarField_IntData{
IntData: &schemapb.IntArray{
Data: []int32{2, 3, 5, 9, 11},
},
},
},
},
}
fieldData2 := &schemapb.FieldData{
Type: schemapb.DataType_VarChar,
Field: &schemapb.FieldData_Scalars{
Scalars: &schemapb.ScalarField{
Data: &schemapb.ScalarField_StringData{
StringData: &schemapb.StringArray{
Data: []string{"b", "c", "e", "f", "g"},
},
},
},
},
}
fieldData3 := &schemapb.FieldData{
Type: schemapb.DataType_Int64,
Field: &schemapb.FieldData_Scalars{
Scalars: &schemapb.ScalarField{
Data: &schemapb.ScalarField_LongData{
LongData: &schemapb.LongArray{
Data: []int64{12, 33, 15, 18, 11},
},
},
},
},
}
results[1] = &internalpb.RetrieveResults{
FieldsData: []*schemapb.FieldData{fieldData1, fieldData2, fieldData3},
}
}
userOutputFields := []string{"c1", "c2", "sum(c3)"}
groupByFields := []string{"c1", "c2"}
sumAgg, err := agg.NewAggregate("sum", 103, "sum(c3)", schemapb.DataType_Int64)
assert.NoError(t, err)
aggs := []agg.AggregateBase{sumAgg[0]}
aggFieldMap, err := agg.NewAggregationFieldMap(userOutputFields, groupByFields, aggs)
require.NoError(t, err)
// Schema: field 101 (Int16), field 102 (VarChar), field 103 (Int64)
schema := &schemapb.CollectionSchema{
Name: "test_collection",
Fields: []*schemapb.FieldSchema{
{FieldID: 101, Name: "c1", DataType: schemapb.DataType_Int16},
{FieldID: 102, Name: "c2", DataType: schemapb.DataType_VarChar},
{FieldID: 103, Name: "c3", DataType: schemapb.DataType_Int64},
},
}
aggReducer := NewMilvusAggReducer(groupByFieldIds, aggregates, aggFieldMap, 10, schema)
reducedRes, err := aggReducer.Reduce(results)
assert.NoError(t, err)
assert.NotNil(t, reducedRes)
assert.Equal(t, len(reducedRes.GetFieldsData()), len(userOutputFields))
actualGroupsKeys1 := reducedRes.GetFieldsData()[0].GetScalars().GetIntData().GetData()
actualGroupsKeys2 := reducedRes.GetFieldsData()[1].GetScalars().GetStringData().GetData()
actualAggs := reducedRes.GetFieldsData()[2].GetScalars().GetLongData().GetData()
groupLen := len(actualGroupsKeys1)
aggLen := len(actualAggs)
assert.Equal(t, groupLen, aggLen)
assert.Equal(t, groupLen, len(actualGroupsKeys2))
type Pair struct {
key1 int32
key2 string
}
expectedMap := map[Pair]int64{
{key1: 2, key2: "a"}: 12,
{key1: 3, key2: "b"}: 33,
{key1: 4, key2: "c"}: 24,
{key1: 8, key2: "d"}: 48,
{key1: 11, key2: "e"}: 11,
{key1: 2, key2: "b"}: 12,
{key1: 3, key2: "c"}: 33,
{key1: 5, key2: "e"}: 15,
{key1: 9, key2: "f"}: 18,
{key1: 11, key2: "g"}: 11,
}
assert.Equal(t, groupLen, len(expectedMap))
for i := 0; i < groupLen; i++ {
actualGroupKey1 := actualGroupsKeys1[i]
actualGroupKey2 := actualGroupsKeys2[i]
actualAgg := actualAggs[i]
keysPair := Pair{key1: actualGroupKey1, key2: actualGroupKey2}
expectAggVal, exist := expectedMap[keysPair]
assert.True(t, exist)
assert.Equal(t, expectAggVal, actualAgg)
}
}
func TestMilvusAggReducePartialOutput(t *testing.T) {
groupByFieldIds := make([]int64, 2)
groupByFieldIds[0] = 101
groupByFieldIds[1] = 102
aggregates := make([]*planpb.Aggregate, 1)
aggregates[0] = &planpb.Aggregate{
Op: planpb.AggregateOp_sum,
FieldId: 103,
}
results := make([]*internalpb.RetrieveResults, 2)
{
fieldData1 := &schemapb.FieldData{
Type: schemapb.DataType_Int16,
Field: &schemapb.FieldData_Scalars{
Scalars: &schemapb.ScalarField{
Data: &schemapb.ScalarField_IntData{
IntData: &schemapb.IntArray{
Data: []int32{2, 3, 4, 8, 11},
},
},
},
},
}
fieldData2 := &schemapb.FieldData{
Type: schemapb.DataType_VarChar,
Field: &schemapb.FieldData_Scalars{
Scalars: &schemapb.ScalarField{
Data: &schemapb.ScalarField_StringData{
StringData: &schemapb.StringArray{
Data: []string{"a", "b", "c", "d", "e"},
},
},
},
},
}
fieldData3 := &schemapb.FieldData{
Type: schemapb.DataType_Int64,
Field: &schemapb.FieldData_Scalars{
Scalars: &schemapb.ScalarField{
Data: &schemapb.ScalarField_LongData{
LongData: &schemapb.LongArray{
Data: []int64{12, 33, 24, 48, 11},
},
},
},
},
}
results[0] = &internalpb.RetrieveResults{
FieldsData: []*schemapb.FieldData{fieldData1, fieldData2, fieldData3},
}
}
{
fieldData1 := &schemapb.FieldData{
Type: schemapb.DataType_Int16,
Field: &schemapb.FieldData_Scalars{
Scalars: &schemapb.ScalarField{
Data: &schemapb.ScalarField_IntData{
IntData: &schemapb.IntArray{
Data: []int32{2, 3, 5, 9, 11},
},
},
},
},
}
fieldData2 := &schemapb.FieldData{
Type: schemapb.DataType_VarChar,
Field: &schemapb.FieldData_Scalars{
Scalars: &schemapb.ScalarField{
Data: &schemapb.ScalarField_StringData{
StringData: &schemapb.StringArray{
Data: []string{"b", "c", "e", "f", "g"},
},
},
},
},
}
fieldData3 := &schemapb.FieldData{
Type: schemapb.DataType_Int64,
Field: &schemapb.FieldData_Scalars{
Scalars: &schemapb.ScalarField{
Data: &schemapb.ScalarField_LongData{
LongData: &schemapb.LongArray{
Data: []int64{12, 33, 15, 18, 11},
},
},
},
},
}
results[1] = &internalpb.RetrieveResults{
FieldsData: []*schemapb.FieldData{fieldData1, fieldData2, fieldData3},
}
}
userOutputFields := []string{"c1", "sum(c3)"}
groupByFields := []string{"c1", "c2"}
sumAgg, err := agg.NewAggregate("sum", 103, "sum(c3)", schemapb.DataType_Int64)
assert.NoError(t, err)
aggs := []agg.AggregateBase{sumAgg[0]}
aggFieldMap, err := agg.NewAggregationFieldMap(userOutputFields, groupByFields, aggs)
require.NoError(t, err)
// Schema: field 101 (Int16), field 102 (VarChar), field 103 (Int64)
schema := &schemapb.CollectionSchema{
Name: "test_collection",
Fields: []*schemapb.FieldSchema{
{FieldID: 101, Name: "c1", DataType: schemapb.DataType_Int16},
{FieldID: 102, Name: "c2", DataType: schemapb.DataType_VarChar},
{FieldID: 103, Name: "c3", DataType: schemapb.DataType_Int64},
},
}
aggReducer := NewMilvusAggReducer(groupByFieldIds, aggregates, aggFieldMap, 10, schema)
reducedRes, err := aggReducer.Reduce(results)
assert.NoError(t, err)
assert.NotNil(t, reducedRes)
assert.Equal(t, len(reducedRes.GetFieldsData()), len(userOutputFields))
actualGroupsKeys1 := reducedRes.GetFieldsData()[0].GetScalars().GetIntData().GetData()
actualAggs := reducedRes.GetFieldsData()[1].GetScalars().GetLongData().GetData()
groupLen := len(actualGroupsKeys1)
aggLen := len(actualAggs)
assert.Equal(t, groupLen, aggLen)
type Pair struct {
key1 int32
key2 string
}
expectedMap := map[Pair]int64{
{key1: 2, key2: "a"}: 12,
{key1: 3, key2: "b"}: 33,
{key1: 4, key2: "c"}: 24,
{key1: 8, key2: "d"}: 48,
{key1: 11, key2: "e"}: 11,
{key1: 2, key2: "b"}: 12,
{key1: 3, key2: "c"}: 33,
{key1: 5, key2: "e"}: 15,
{key1: 9, key2: "f"}: 18,
{key1: 11, key2: "g"}: 11,
}
assert.Equal(t, groupLen, len(expectedMap))
}
func TestMilvusAggReduceFloatDouble(t *testing.T) {
groupByFieldIds := make([]int64, 2)
groupByFieldIds[0] = 101
groupByFieldIds[1] = 102
aggregates := make([]*planpb.Aggregate, 1)
aggregates[0] = &planpb.Aggregate{
Op: planpb.AggregateOp_sum,
FieldId: 103,
}
results := make([]*internalpb.RetrieveResults, 2)
{
fieldData1 := &schemapb.FieldData{
Type: schemapb.DataType_Float,
Field: &schemapb.FieldData_Scalars{
Scalars: &schemapb.ScalarField{
Data: &schemapb.ScalarField_FloatData{
FloatData: &schemapb.FloatArray{
Data: []float32{2.0, 3.0, 4.0, 8.0, 11.2},
},
},
},
},
}
fieldData2 := &schemapb.FieldData{
Type: schemapb.DataType_Double,
Field: &schemapb.FieldData_Scalars{
Scalars: &schemapb.ScalarField{
Data: &schemapb.ScalarField_DoubleData{
DoubleData: &schemapb.DoubleArray{
Data: []float64{2.0, 3.0, 4.0, 8.0, 11.2},
},
},
},
},
}
fieldData3 := &schemapb.FieldData{
Type: schemapb.DataType_Double,
Field: &schemapb.FieldData_Scalars{
Scalars: &schemapb.ScalarField{
Data: &schemapb.ScalarField_DoubleData{
DoubleData: &schemapb.DoubleArray{
Data: []float64{12.0, 33.0, 44.0, 48.0, 11.2},
},
},
},
},
}
results[0] = &internalpb.RetrieveResults{
FieldsData: []*schemapb.FieldData{fieldData1, fieldData2, fieldData3},
}
}
{
fieldData1 := &schemapb.FieldData{
Type: schemapb.DataType_Float,
Field: &schemapb.FieldData_Scalars{
Scalars: &schemapb.ScalarField{
Data: &schemapb.ScalarField_FloatData{
FloatData: &schemapb.FloatArray{
Data: []float32{2.0, 3.0, 4.0, 8.0, 11.2},
},
},
},
},
}
fieldData2 := &schemapb.FieldData{
Type: schemapb.DataType_Double,
Field: &schemapb.FieldData_Scalars{
Scalars: &schemapb.ScalarField{
Data: &schemapb.ScalarField_DoubleData{
DoubleData: &schemapb.DoubleArray{
Data: []float64{2.0, 3.0, 4.0, 8.0, 11.2},
},
},
},
},
}
fieldData3 := &schemapb.FieldData{
Type: schemapb.DataType_Double,
Field: &schemapb.FieldData_Scalars{
Scalars: &schemapb.ScalarField{
Data: &schemapb.ScalarField_DoubleData{
DoubleData: &schemapb.DoubleArray{
Data: []float64{12.0, 33.0, 44.0, 48.0, 11.2},
},
},
},
},
}
results[1] = &internalpb.RetrieveResults{
FieldsData: []*schemapb.FieldData{fieldData1, fieldData2, fieldData3},
}
}
userOutputFields := []string{"c1", "c2", "sum(c3)"}
groupByFields := []string{"c1", "c2"}
sumAgg, err := agg.NewAggregate("sum", 103, "sum(c3)", schemapb.DataType_Int64)
assert.NoError(t, err)
aggs := []agg.AggregateBase{sumAgg[0]}
aggFieldMap, err := agg.NewAggregationFieldMap(userOutputFields, groupByFields, aggs)
require.NoError(t, err)
// Schema: field 101 (Float), field 102 (Double), field 103 (Double)
schema := &schemapb.CollectionSchema{
Name: "test_collection",
Fields: []*schemapb.FieldSchema{
{FieldID: 101, Name: "c1", DataType: schemapb.DataType_Float},
{FieldID: 102, Name: "c2", DataType: schemapb.DataType_Double},
{FieldID: 103, Name: "c3", DataType: schemapb.DataType_Double},
},
}
aggReducer := NewMilvusAggReducer(groupByFieldIds, aggregates, aggFieldMap, 10, schema)
reducedRes, err := aggReducer.Reduce(results)
assert.NoError(t, err)
assert.NotNil(t, reducedRes)
assert.Equal(t, len(reducedRes.GetFieldsData()), len(userOutputFields))
actualGroupsKeys1 := reducedRes.GetFieldsData()[0].GetScalars().GetFloatData().GetData()
actualGroupsKeys2 := reducedRes.GetFieldsData()[1].GetScalars().GetDoubleData().GetData()
actualAggs := reducedRes.GetFieldsData()[2].GetScalars().GetDoubleData().GetData()
groupLen := len(actualGroupsKeys1)
aggLen := len(actualAggs)
assert.Equal(t, groupLen, aggLen)
assert.Equal(t, groupLen, len(actualGroupsKeys2))
type Pair struct {
key1 float32
key2 float64
}
expectedMap := map[Pair]float64{
{key1: 2.0, key2: 2.0}: 24.0,
{key1: 3.0, key2: 3.0}: 66.0,
{key1: 4.0, key2: 4.0}: 88.0,
{key1: 8.0, key2: 8.0}: 96.0,
{key1: 11.2, key2: 11.2}: 22.4,
}
assert.Equal(t, groupLen, len(expectedMap))
for i := 0; i < groupLen; i++ {
actualGroupKey1 := actualGroupsKeys1[i]
actualGroupKey2 := actualGroupsKeys2[i]
actualAgg := actualAggs[i]
keysPair := Pair{key1: actualGroupKey1, key2: actualGroupKey2}
expectAggVal, exist := expectedMap[keysPair]
assert.True(t, exist)
assert.Equal(t, expectAggVal, actualAgg)
}
}
func TestMilvusAggReduceMinSingleColumn(t *testing.T) {
groupByFieldIds := make([]int64, 1)
groupByFieldIds[0] = 101
aggregates := make([]*planpb.Aggregate, 1)
aggregates[0] = &planpb.Aggregate{
Op: planpb.AggregateOp_min,
FieldId: 102,
}
results := make([]*internalpb.RetrieveResults, 2)
{
fieldData1 := &schemapb.FieldData{
Type: schemapb.DataType_Int16,
Field: &schemapb.FieldData_Scalars{
Scalars: &schemapb.ScalarField{
Data: &schemapb.ScalarField_IntData{
IntData: &schemapb.IntArray{
Data: []int32{2, 3, 4, 8, 11},
},
},
},
},
}
fieldData2 := &schemapb.FieldData{
Type: schemapb.DataType_Int64,
Field: &schemapb.FieldData_Scalars{
Scalars: &schemapb.ScalarField{
Data: &schemapb.ScalarField_LongData{
LongData: &schemapb.LongArray{
Data: []int64{20, 35, 24, 50, 15},
},
},
},
},
}
results[0] = &internalpb.RetrieveResults{
FieldsData: []*schemapb.FieldData{fieldData1, fieldData2},
}
}
{
fieldData1 := &schemapb.FieldData{
Type: schemapb.DataType_Int16,
Field: &schemapb.FieldData_Scalars{
Scalars: &schemapb.ScalarField{
Data: &schemapb.ScalarField_IntData{
IntData: &schemapb.IntArray{
Data: []int32{2, 3, 5, 9, 11},
},
},
},
},
}
fieldData2 := &schemapb.FieldData{
Type: schemapb.DataType_Int64,
Field: &schemapb.FieldData_Scalars{
Scalars: &schemapb.ScalarField{
Data: &schemapb.ScalarField_LongData{
LongData: &schemapb.LongArray{
Data: []int64{10, 30, 15, 18, 12},
},
},
},
},
}
results[1] = &internalpb.RetrieveResults{
FieldsData: []*schemapb.FieldData{fieldData1, fieldData2},
}
}
userOutputFields := []string{"c1", "min(c2)"}
groupByFields := []string{"c1"}
minAggs, err := agg.NewAggregate("min", 102, "min(c2)", schemapb.DataType_Int64)
assert.NoError(t, err)
aggs := []agg.AggregateBase{minAggs[0]}
aggFieldMap, err := agg.NewAggregationFieldMap(userOutputFields, groupByFields, aggs)
require.NoError(t, err)
// Schema: field 101 (Int16), field 102 (Int64)
schema := &schemapb.CollectionSchema{
Name: "test_collection",
Fields: []*schemapb.FieldSchema{
{FieldID: 101, Name: "c1", DataType: schemapb.DataType_Int16},
{FieldID: 102, Name: "c2", DataType: schemapb.DataType_Int64},
},
}
aggReducer := NewMilvusAggReducer(groupByFieldIds, aggregates, aggFieldMap, 10, schema)
reducedRes, err := aggReducer.Reduce(results)
assert.Equal(t, len(reducedRes.GetFieldsData()), len(userOutputFields))
assert.NoError(t, err)
assert.NotNil(t, reducedRes)
actualGroupsKeys := reducedRes.GetFieldsData()[0].GetScalars().GetIntData().GetData()
actualAggs := reducedRes.GetFieldsData()[1].GetScalars().GetLongData().GetData()
groupLen := len(actualGroupsKeys)
aggLen := len(actualAggs)
assert.Equal(t, groupLen, aggLen)
// For min: 2->min(20,10)=10, 3->min(35,30)=30, 4->24, 8->50, 11->min(15,12)=12, 5->15, 9->18
expectGroupAggMap := map[int32]int64{2: 10, 3: 30, 4: 24, 8: 50, 11: 12, 5: 15, 9: 18}
assert.Equal(t, groupLen, len(expectGroupAggMap))
for i := 0; i < groupLen; i++ {
groupKey := actualGroupsKeys[i]
actualAgg := actualAggs[i]
expectAggVal, exist := expectGroupAggMap[groupKey]
assert.True(t, exist)
assert.Equal(t, expectAggVal, actualAgg)
}
}
func TestMilvusAggReduceMaxSingleColumn(t *testing.T) {
groupByFieldIds := make([]int64, 1)
groupByFieldIds[0] = 101
aggregates := make([]*planpb.Aggregate, 1)
aggregates[0] = &planpb.Aggregate{
Op: planpb.AggregateOp_max,
FieldId: 102,
}
results := make([]*internalpb.RetrieveResults, 2)
{
fieldData1 := &schemapb.FieldData{
Type: schemapb.DataType_Int16,
Field: &schemapb.FieldData_Scalars{
Scalars: &schemapb.ScalarField{
Data: &schemapb.ScalarField_IntData{
IntData: &schemapb.IntArray{
Data: []int32{2, 3, 4, 8, 11},
},
},
},
},
}
fieldData2 := &schemapb.FieldData{
Type: schemapb.DataType_Int64,
Field: &schemapb.FieldData_Scalars{
Scalars: &schemapb.ScalarField{
Data: &schemapb.ScalarField_LongData{
LongData: &schemapb.LongArray{
Data: []int64{20, 35, 24, 50, 15},
},
},
},
},
}
results[0] = &internalpb.RetrieveResults{
FieldsData: []*schemapb.FieldData{fieldData1, fieldData2},
}
}
{
fieldData1 := &schemapb.FieldData{
Type: schemapb.DataType_Int16,
Field: &schemapb.FieldData_Scalars{
Scalars: &schemapb.ScalarField{
Data: &schemapb.ScalarField_IntData{
IntData: &schemapb.IntArray{
Data: []int32{2, 3, 5, 9, 11},
},
},
},
},
}
fieldData2 := &schemapb.FieldData{
Type: schemapb.DataType_Int64,
Field: &schemapb.FieldData_Scalars{
Scalars: &schemapb.ScalarField{
Data: &schemapb.ScalarField_LongData{
LongData: &schemapb.LongArray{
Data: []int64{10, 30, 15, 18, 12},
},
},
},
},
}
results[1] = &internalpb.RetrieveResults{
FieldsData: []*schemapb.FieldData{fieldData1, fieldData2},
}
}
userOutputFields := []string{"c1", "max(c2)"}
groupByFields := []string{"c1"}
maxAggs, err := agg.NewAggregate("max", 102, "max(c2)", schemapb.DataType_Int64)
assert.NoError(t, err)
aggs := []agg.AggregateBase{maxAggs[0]}
aggFieldMap, err := agg.NewAggregationFieldMap(userOutputFields, groupByFields, aggs)
require.NoError(t, err)
// Schema: field 101 (Int16), field 102 (Int64)
schema := &schemapb.CollectionSchema{
Name: "test_collection",
Fields: []*schemapb.FieldSchema{
{FieldID: 101, Name: "c1", DataType: schemapb.DataType_Int16},
{FieldID: 102, Name: "c2", DataType: schemapb.DataType_Int64},
},
}
aggReducer := NewMilvusAggReducer(groupByFieldIds, aggregates, aggFieldMap, 10, schema)
reducedRes, err := aggReducer.Reduce(results)
assert.Equal(t, len(reducedRes.GetFieldsData()), len(userOutputFields))
assert.NoError(t, err)
assert.NotNil(t, reducedRes)
actualGroupsKeys := reducedRes.GetFieldsData()[0].GetScalars().GetIntData().GetData()
actualAggs := reducedRes.GetFieldsData()[1].GetScalars().GetLongData().GetData()
groupLen := len(actualGroupsKeys)
aggLen := len(actualAggs)
assert.Equal(t, groupLen, aggLen)
// For max: 2->max(20,10)=20, 3->max(35,30)=35, 4->24, 8->50, 11->max(15,12)=15, 5->15, 9->18
expectGroupAggMap := map[int32]int64{2: 20, 3: 35, 4: 24, 8: 50, 11: 15, 5: 15, 9: 18}
assert.Equal(t, groupLen, len(expectGroupAggMap))
for i := 0; i < groupLen; i++ {
groupKey := actualGroupsKeys[i]
actualAgg := actualAggs[i]
expectAggVal, exist := expectGroupAggMap[groupKey]
assert.True(t, exist)
assert.Equal(t, expectAggVal, actualAgg)
}
}
func TestMilvusAggReduceMinMultiColumn(t *testing.T) {
groupByFieldIds := make([]int64, 2)
groupByFieldIds[0] = 101
groupByFieldIds[1] = 102
aggregates := make([]*planpb.Aggregate, 1)
aggregates[0] = &planpb.Aggregate{
Op: planpb.AggregateOp_min,
FieldId: 103,
}
results := make([]*internalpb.RetrieveResults, 2)
{
fieldData1 := &schemapb.FieldData{
Type: schemapb.DataType_Int16,
Field: &schemapb.FieldData_Scalars{
Scalars: &schemapb.ScalarField{
Data: &schemapb.ScalarField_IntData{
IntData: &schemapb.IntArray{
Data: []int32{2, 3, 4, 8, 11},
},
},
},
},
}
fieldData2 := &schemapb.FieldData{
Type: schemapb.DataType_VarChar,
Field: &schemapb.FieldData_Scalars{
Scalars: &schemapb.ScalarField{
Data: &schemapb.ScalarField_StringData{
StringData: &schemapb.StringArray{
Data: []string{"a", "b", "c", "d", "e"},
},
},
},
},
}
fieldData3 := &schemapb.FieldData{
Type: schemapb.DataType_Int64,
Field: &schemapb.FieldData_Scalars{
Scalars: &schemapb.ScalarField{
Data: &schemapb.ScalarField_LongData{
LongData: &schemapb.LongArray{
Data: []int64{20, 35, 24, 50, 15},
},
},
},
},
}
results[0] = &internalpb.RetrieveResults{
FieldsData: []*schemapb.FieldData{fieldData1, fieldData2, fieldData3},
}
}
{
fieldData1 := &schemapb.FieldData{
Type: schemapb.DataType_Int16,
Field: &schemapb.FieldData_Scalars{
Scalars: &schemapb.ScalarField{
Data: &schemapb.ScalarField_IntData{
IntData: &schemapb.IntArray{
Data: []int32{2, 3, 2, 5, 9, 11, 3},
},
},
},
},
}
fieldData2 := &schemapb.FieldData{
Type: schemapb.DataType_VarChar,
Field: &schemapb.FieldData_Scalars{
Scalars: &schemapb.ScalarField{
Data: &schemapb.ScalarField_StringData{
StringData: &schemapb.StringArray{
Data: []string{"b", "c", "a", "e", "f", "g", "b"},
},
},
},
},
}
fieldData3 := &schemapb.FieldData{
Type: schemapb.DataType_Int64,
Field: &schemapb.FieldData_Scalars{
Scalars: &schemapb.ScalarField{
Data: &schemapb.ScalarField_LongData{
LongData: &schemapb.LongArray{
Data: []int64{10, 30, 15, 15, 18, 12, 25},
},
},
},
},
}
results[1] = &internalpb.RetrieveResults{
FieldsData: []*schemapb.FieldData{fieldData1, fieldData2, fieldData3},
}
}
userOutputFields := []string{"c1", "c2", "min(c3)"}
groupByFields := []string{"c1", "c2"}
minAgg, err := agg.NewAggregate("min", 103, "min(c3)", schemapb.DataType_Int64)
assert.NoError(t, err)
aggs := []agg.AggregateBase{minAgg[0]}
aggFieldMap, err := agg.NewAggregationFieldMap(userOutputFields, groupByFields, aggs)
require.NoError(t, err)
// Schema: field 101 (Int16), field 102 (VarChar), field 103 (Int64)
schema := &schemapb.CollectionSchema{
Name: "test_collection",
Fields: []*schemapb.FieldSchema{
{FieldID: 101, Name: "c1", DataType: schemapb.DataType_Int16},
{FieldID: 102, Name: "c2", DataType: schemapb.DataType_VarChar},
{FieldID: 103, Name: "c3", DataType: schemapb.DataType_Int64},
},
}
aggReducer := NewMilvusAggReducer(groupByFieldIds, aggregates, aggFieldMap, -1, schema)
reducedRes, err := aggReducer.Reduce(results)
assert.NoError(t, err)
assert.NotNil(t, reducedRes)
assert.Equal(t, len(reducedRes.GetFieldsData()), len(userOutputFields))
actualGroupsKeys1 := reducedRes.GetFieldsData()[0].GetScalars().GetIntData().GetData()
actualGroupsKeys2 := reducedRes.GetFieldsData()[1].GetScalars().GetStringData().GetData()
actualAggs := reducedRes.GetFieldsData()[2].GetScalars().GetLongData().GetData()
groupLen := len(actualGroupsKeys1)
aggLen := len(actualAggs)
assert.Equal(t, groupLen, aggLen)
assert.Equal(t, groupLen, len(actualGroupsKeys2))
type Pair struct {
key1 int32
key2 string
}
// For min: (2,"a")->min(20,15)=15, (2,"b")->10, (3,"b")->min(35,25)=25, (3,"c")->30, (4,"c")->24, (8,"d")->50, (11,"e")->15, (5,"e")->15, (9,"f")->18, (11,"g")->12
expectedMap := map[Pair]int64{
{key1: 2, key2: "a"}: 15,
{key1: 3, key2: "b"}: 25,
{key1: 4, key2: "c"}: 24,
{key1: 8, key2: "d"}: 50,
{key1: 11, key2: "e"}: 15,
{key1: 2, key2: "b"}: 10,
{key1: 3, key2: "c"}: 30,
{key1: 5, key2: "e"}: 15,
{key1: 9, key2: "f"}: 18,
{key1: 11, key2: "g"}: 12,
}
assert.Equal(t, groupLen, len(expectedMap))
for i := 0; i < groupLen; i++ {
actualGroupKey1 := actualGroupsKeys1[i]
actualGroupKey2 := actualGroupsKeys2[i]
actualAgg := actualAggs[i]
keysPair := Pair{key1: actualGroupKey1, key2: actualGroupKey2}
expectAggVal, exist := expectedMap[keysPair]
assert.True(t, exist)
assert.Equal(t, expectAggVal, actualAgg)
}
}
func TestMilvusAggReduceMaxMultiColumn(t *testing.T) {
groupByFieldIds := make([]int64, 2)
groupByFieldIds[0] = 101
groupByFieldIds[1] = 102
aggregates := make([]*planpb.Aggregate, 1)
aggregates[0] = &planpb.Aggregate{
Op: planpb.AggregateOp_max,
FieldId: 103,
}
results := make([]*internalpb.RetrieveResults, 2)
{
fieldData1 := &schemapb.FieldData{
Type: schemapb.DataType_Int16,
Field: &schemapb.FieldData_Scalars{
Scalars: &schemapb.ScalarField{
Data: &schemapb.ScalarField_IntData{
IntData: &schemapb.IntArray{
Data: []int32{2, 3, 4, 8, 11},
},
},
},
},
}
fieldData2 := &schemapb.FieldData{
Type: schemapb.DataType_VarChar,
Field: &schemapb.FieldData_Scalars{
Scalars: &schemapb.ScalarField{
Data: &schemapb.ScalarField_StringData{
StringData: &schemapb.StringArray{
Data: []string{"a", "b", "c", "d", "e"},
},
},
},
},
}
fieldData3 := &schemapb.FieldData{
Type: schemapb.DataType_Int64,
Field: &schemapb.FieldData_Scalars{
Scalars: &schemapb.ScalarField{
Data: &schemapb.ScalarField_LongData{
LongData: &schemapb.LongArray{
Data: []int64{20, 35, 24, 50, 15},
},
},
},
},
}
results[0] = &internalpb.RetrieveResults{
FieldsData: []*schemapb.FieldData{fieldData1, fieldData2, fieldData3},
}
}
{
fieldData1 := &schemapb.FieldData{
Type: schemapb.DataType_Int16,
Field: &schemapb.FieldData_Scalars{
Scalars: &schemapb.ScalarField{
Data: &schemapb.ScalarField_IntData{
IntData: &schemapb.IntArray{
Data: []int32{2, 3, 2, 5, 9, 11, 3},
},
},
},
},
}
fieldData2 := &schemapb.FieldData{
Type: schemapb.DataType_VarChar,
Field: &schemapb.FieldData_Scalars{
Scalars: &schemapb.ScalarField{
Data: &schemapb.ScalarField_StringData{
StringData: &schemapb.StringArray{
Data: []string{"b", "c", "a", "e", "f", "g", "b"},
},
},
},
},
}
fieldData3 := &schemapb.FieldData{
Type: schemapb.DataType_Int64,
Field: &schemapb.FieldData_Scalars{
Scalars: &schemapb.ScalarField{
Data: &schemapb.ScalarField_LongData{
LongData: &schemapb.LongArray{
Data: []int64{10, 30, 15, 15, 18, 12, 25},
},
},
},
},
}
results[1] = &internalpb.RetrieveResults{
FieldsData: []*schemapb.FieldData{fieldData1, fieldData2, fieldData3},
}
}
userOutputFields := []string{"c1", "c2", "max(c3)"}
groupByFields := []string{"c1", "c2"}
maxAgg, err := agg.NewAggregate("max", 103, "max(c3)", schemapb.DataType_Int64)
assert.NoError(t, err)
aggs := []agg.AggregateBase{maxAgg[0]}
aggFieldMap, err := agg.NewAggregationFieldMap(userOutputFields, groupByFields, aggs)
require.NoError(t, err)
// Schema: field 101 (Int16), field 102 (VarChar), field 103 (Int64)
schema := &schemapb.CollectionSchema{
Name: "test_collection",
Fields: []*schemapb.FieldSchema{
{FieldID: 101, Name: "c1", DataType: schemapb.DataType_Int16},
{FieldID: 102, Name: "c2", DataType: schemapb.DataType_VarChar},
{FieldID: 103, Name: "c3", DataType: schemapb.DataType_Int64},
},
}
aggReducer := NewMilvusAggReducer(groupByFieldIds, aggregates, aggFieldMap, -1, schema)
reducedRes, err := aggReducer.Reduce(results)
assert.NoError(t, err)
assert.NotNil(t, reducedRes)
assert.Equal(t, len(reducedRes.GetFieldsData()), len(userOutputFields))
actualGroupsKeys1 := reducedRes.GetFieldsData()[0].GetScalars().GetIntData().GetData()
actualGroupsKeys2 := reducedRes.GetFieldsData()[1].GetScalars().GetStringData().GetData()
actualAggs := reducedRes.GetFieldsData()[2].GetScalars().GetLongData().GetData()
groupLen := len(actualGroupsKeys1)
aggLen := len(actualAggs)
assert.Equal(t, groupLen, aggLen)
assert.Equal(t, groupLen, len(actualGroupsKeys2))
type Pair struct {
key1 int32
key2 string
}
// For max: (2,"a")->max(20,15)=20, (2,"b")->10, (3,"b")->max(35,25)=35, (3,"c")->30, (4,"c")->24, (8,"d")->50, (11,"e")->15, (5,"e")->15, (9,"f")->18, (11,"g")->12
expectedMap := map[Pair]int64{
{key1: 2, key2: "a"}: 20,
{key1: 3, key2: "b"}: 35,
{key1: 4, key2: "c"}: 24,
{key1: 8, key2: "d"}: 50,
{key1: 11, key2: "e"}: 15,
{key1: 2, key2: "b"}: 10,
{key1: 3, key2: "c"}: 30,
{key1: 5, key2: "e"}: 15,
{key1: 9, key2: "f"}: 18,
{key1: 11, key2: "g"}: 12,
}
assert.Equal(t, groupLen, len(expectedMap))
for i := 0; i < groupLen; i++ {
actualGroupKey1 := actualGroupsKeys1[i]
actualGroupKey2 := actualGroupsKeys2[i]
actualAgg := actualAggs[i]
keysPair := Pair{key1: actualGroupKey1, key2: actualGroupKey2}
expectAggVal, exist := expectedMap[keysPair]
assert.True(t, exist)
assert.Equal(t, expectAggVal, actualAgg)
}
}
func TestMilvusAggReduceAvgSingleColumn(t *testing.T) {
groupByFieldIds := make([]int64, 1)
groupByFieldIds[0] = 101
results := make([]*internalpb.RetrieveResults, 2)
{
// FieldData: c1 (groupBy), sum(c2), count(c2)
fieldData1 := &schemapb.FieldData{
Type: schemapb.DataType_Int16,
Field: &schemapb.FieldData_Scalars{
Scalars: &schemapb.ScalarField{
Data: &schemapb.ScalarField_IntData{
IntData: &schemapb.IntArray{
Data: []int32{2, 3, 4, 8, 11},
},
},
},
},
}
fieldData2 := &schemapb.FieldData{
Type: schemapb.DataType_Int64,
Field: &schemapb.FieldData_Scalars{
Scalars: &schemapb.ScalarField{
Data: &schemapb.ScalarField_LongData{
LongData: &schemapb.LongArray{
Data: []int64{12, 33, 24, 48, 11}, // sum values
},
},
},
},
}
fieldData3 := &schemapb.FieldData{
Type: schemapb.DataType_Int64,
Field: &schemapb.FieldData_Scalars{
Scalars: &schemapb.ScalarField{
Data: &schemapb.ScalarField_LongData{
LongData: &schemapb.LongArray{
Data: []int64{1, 1, 1, 1, 1}, // count values
},
},
},
},
}
results[0] = &internalpb.RetrieveResults{
FieldsData: []*schemapb.FieldData{fieldData1, fieldData2, fieldData3},
}
}
{
// FieldData: c1 (groupBy), sum(c2), count(c2)
fieldData1 := &schemapb.FieldData{
Type: schemapb.DataType_Int16,
Field: &schemapb.FieldData_Scalars{
Scalars: &schemapb.ScalarField{
Data: &schemapb.ScalarField_IntData{
IntData: &schemapb.IntArray{
Data: []int32{2, 3, 5, 9, 11},
},
},
},
},
}
fieldData2 := &schemapb.FieldData{
Type: schemapb.DataType_Int64,
Field: &schemapb.FieldData_Scalars{
Scalars: &schemapb.ScalarField{
Data: &schemapb.ScalarField_LongData{
LongData: &schemapb.LongArray{
Data: []int64{12, 33, 15, 18, 11}, // sum values
},
},
},
},
}
fieldData3 := &schemapb.FieldData{
Type: schemapb.DataType_Int64,
Field: &schemapb.FieldData_Scalars{
Scalars: &schemapb.ScalarField{
Data: &schemapb.ScalarField_LongData{
LongData: &schemapb.LongArray{
Data: []int64{1, 1, 1, 1, 1}, // count values
},
},
},
},
}
results[1] = &internalpb.RetrieveResults{
FieldsData: []*schemapb.FieldData{fieldData1, fieldData2, fieldData3},
}
}
userOutputFields := []string{"c1", "avg(c2)"}
groupByFields := []string{"c1"}
avgAggs, err := agg.NewAggregate("avg", 102, "avg(c2)", schemapb.DataType_Int64)
assert.NoError(t, err)
// avg returns two aggregates: sum and count
assert.Equal(t, 2, len(avgAggs))
aggs := []agg.AggregateBase{avgAggs[0], avgAggs[1]}
aggFieldMap, err := agg.NewAggregationFieldMap(userOutputFields, groupByFields, aggs)
require.NoError(t, err)
// Schema: field 101 (Int16), field 102 (Int64)
schema := &schemapb.CollectionSchema{
Name: "test_collection",
Fields: []*schemapb.FieldSchema{
{FieldID: 101, Name: "c1", DataType: schemapb.DataType_Int16},
{FieldID: 102, Name: "c2", DataType: schemapb.DataType_Int64},
},
}
aggPBs := agg.AggregatesToPB(avgAggs)
aggReducer := NewMilvusAggReducer(groupByFieldIds, aggPBs, aggFieldMap, -1, schema)
reducedRes, err := aggReducer.Reduce(results)
assert.NoError(t, err)
assert.NotNil(t, reducedRes)
assert.Equal(t, len(userOutputFields), len(reducedRes.GetFieldsData()))
actualGroupsKeys := reducedRes.GetFieldsData()[0].GetScalars().GetIntData().GetData()
actualAggs := reducedRes.GetFieldsData()[1].GetScalars().GetDoubleData().GetData()
groupLen := len(actualGroupsKeys)
aggLen := len(actualAggs)
assert.Equal(t, groupLen, aggLen)
// For avg: 2->(12+12)/2=12.0, 3->(33+33)/2=33.0, 4->24/1=24.0, 8->48/1=48.0, 11->(11+11)/2=11.0, 5->15/1=15.0, 9->18/1=18.0
expectGroupAggMap := map[int32]float64{
2: 12.0, // (12+12)/2
3: 33.0, // (33+33)/2
4: 24.0, // 24/1
8: 48.0, // 48/1
11: 11.0, // (11+11)/2
5: 15.0, // 15/1
9: 18.0, // 18/1
}
assert.Equal(t, groupLen, len(expectGroupAggMap))
for i := 0; i < groupLen; i++ {
groupKey := actualGroupsKeys[i]
actualAgg := actualAggs[i]
expectAggVal, exist := expectGroupAggMap[groupKey]
assert.True(t, exist)
assert.InDelta(t, expectAggVal, actualAgg, 0.0001, "avg value for group %d should be %f, got %f", groupKey, expectAggVal, actualAgg)
}
}
func TestMilvusAggReduce(t *testing.T) {
paramtable.Init()
suite.Run(t, new(MilvusAggReduceSuite))
}