// Code generated by go generate; DO NOT EDIT // This file is generated by go generate package column import ( "fmt" "github.com/cockroachdb/errors" "github.com/milvus-io/milvus-proto/go-api/v2/schemapb" "github.com/milvus-io/milvus/client/v2/entity" ) // ColumnBoolArray generated columns type for Bool type ColumnBoolArray struct { ColumnBase name string values [][]bool } // Name returns column name func (c *ColumnBoolArray) Name() string { return c.name } // Type returns column entity.FieldType func (c *ColumnBoolArray) Type() entity.FieldType { return entity.FieldTypeArray } // Len returns column values length func (c *ColumnBoolArray) Len() int { return len(c.values) } func (c *ColumnBoolArray) Slice(start, end int) Column { l := c.Len() if start > l { start = l } if end == -1 || end > l { end = l } if end == -1 || end > l { end = l } return &ColumnBoolArray{ ColumnBase: c.ColumnBase, name: c.name, values: c.values[start:end], } } // Get returns value at index as interface{}. func (c *ColumnBoolArray) Get(idx int) (interface{}, error) { var r []bool // use default value if idx < 0 || idx >= c.Len() { return r, errors.New("index out of range") } return c.values[idx], nil } // FieldData return column data mapped to schemapb.FieldData func (c *ColumnBoolArray) FieldData() *schemapb.FieldData { fd := &schemapb.FieldData{ Type: schemapb.DataType_Array, FieldName: c.name, } data := make([]*schemapb.ScalarField, 0, c.Len()) for _, arr := range c.values { converted := make([]bool, 0, c.Len()) for i := 0; i < len(arr); i++ { converted = append(converted, bool(arr[i])) } data = append(data, &schemapb.ScalarField{ Data: &schemapb.ScalarField_BoolData{ BoolData: &schemapb.BoolArray{ Data: converted, }, }, }) } fd.Field = &schemapb.FieldData_Scalars{ Scalars: &schemapb.ScalarField{ Data: &schemapb.ScalarField_ArrayData{ ArrayData: &schemapb.ArrayArray{ Data: data, ElementType: schemapb.DataType_Bool, }, }, }, } return fd } // ValueByIdx returns value of the provided index // error occurs when index out of range func (c *ColumnBoolArray) ValueByIdx(idx int) ([]bool, error) { var r []bool // use default value if idx < 0 || idx >= c.Len() { return r, errors.New("index out of range") } return c.values[idx], nil } // AppendValue append value into column func (c *ColumnBoolArray) AppendValue(i interface{}) error { v, ok := i.([]bool) if !ok { return fmt.Errorf("invalid type, expected []bool, got %T", i) } c.values = append(c.values, v) return nil } // Data returns column data func (c *ColumnBoolArray) Data() [][]bool { return c.values } // NewColumnBool auto generated constructor func NewColumnBoolArray(name string, values [][]bool) *ColumnBoolArray { return &ColumnBoolArray{ name: name, values: values, } } // ColumnInt8Array generated columns type for Int8 type ColumnInt8Array struct { ColumnBase name string values [][]int8 } // Name returns column name func (c *ColumnInt8Array) Name() string { return c.name } // Type returns column entity.FieldType func (c *ColumnInt8Array) Type() entity.FieldType { return entity.FieldTypeArray } // Len returns column values length func (c *ColumnInt8Array) Len() int { return len(c.values) } func (c *ColumnInt8Array) Slice(start, end int) Column { l := c.Len() if start > l { start = l } if end == -1 || end > l { end = l } return &ColumnInt8Array{ ColumnBase: c.ColumnBase, name: c.name, values: c.values[start:end], } } // Get returns value at index as interface{}. func (c *ColumnInt8Array) Get(idx int) (interface{}, error) { var r []int8 // use default value if idx < 0 || idx >= c.Len() { return r, errors.New("index out of range") } return c.values[idx], nil } // FieldData return column data mapped to schemapb.FieldData func (c *ColumnInt8Array) FieldData() *schemapb.FieldData { fd := &schemapb.FieldData{ Type: schemapb.DataType_Array, FieldName: c.name, } data := make([]*schemapb.ScalarField, 0, c.Len()) for _, arr := range c.values { converted := make([]int32, 0, c.Len()) for i := 0; i < len(arr); i++ { converted = append(converted, int32(arr[i])) } data = append(data, &schemapb.ScalarField{ Data: &schemapb.ScalarField_IntData{ IntData: &schemapb.IntArray{ Data: converted, }, }, }) } fd.Field = &schemapb.FieldData_Scalars{ Scalars: &schemapb.ScalarField{ Data: &schemapb.ScalarField_ArrayData{ ArrayData: &schemapb.ArrayArray{ Data: data, ElementType: schemapb.DataType_Int8, }, }, }, } return fd } // ValueByIdx returns value of the provided index // error occurs when index out of range func (c *ColumnInt8Array) ValueByIdx(idx int) ([]int8, error) { var r []int8 // use default value if idx < 0 || idx >= c.Len() { return r, errors.New("index out of range") } return c.values[idx], nil } // AppendValue append value into column func (c *ColumnInt8Array) AppendValue(i interface{}) error { v, ok := i.([]int8) if !ok { return fmt.Errorf("invalid type, expected []int8, got %T", i) } c.values = append(c.values, v) return nil } // Data returns column data func (c *ColumnInt8Array) Data() [][]int8 { return c.values } // NewColumnInt8 auto generated constructor func NewColumnInt8Array(name string, values [][]int8) *ColumnInt8Array { return &ColumnInt8Array{ name: name, values: values, } } // ColumnInt16Array generated columns type for Int16 type ColumnInt16Array struct { ColumnBase name string values [][]int16 } // Name returns column name func (c *ColumnInt16Array) Name() string { return c.name } // Type returns column entity.FieldType func (c *ColumnInt16Array) Type() entity.FieldType { return entity.FieldTypeArray } // Len returns column values length func (c *ColumnInt16Array) Len() int { return len(c.values) } func (c *ColumnInt16Array) Slice(start, end int) Column { l := c.Len() if start > l { start = l } if end == -1 || end > l { end = l } return &ColumnInt16Array{ ColumnBase: c.ColumnBase, name: c.name, values: c.values[start:end], } } // Get returns value at index as interface{}. func (c *ColumnInt16Array) Get(idx int) (interface{}, error) { var r []int16 // use default value if idx < 0 || idx >= c.Len() { return r, errors.New("index out of range") } return c.values[idx], nil } // FieldData return column data mapped to schemapb.FieldData func (c *ColumnInt16Array) FieldData() *schemapb.FieldData { fd := &schemapb.FieldData{ Type: schemapb.DataType_Array, FieldName: c.name, } data := make([]*schemapb.ScalarField, 0, c.Len()) for _, arr := range c.values { converted := make([]int32, 0, c.Len()) for i := 0; i < len(arr); i++ { converted = append(converted, int32(arr[i])) } data = append(data, &schemapb.ScalarField{ Data: &schemapb.ScalarField_IntData{ IntData: &schemapb.IntArray{ Data: converted, }, }, }) } fd.Field = &schemapb.FieldData_Scalars{ Scalars: &schemapb.ScalarField{ Data: &schemapb.ScalarField_ArrayData{ ArrayData: &schemapb.ArrayArray{ Data: data, ElementType: schemapb.DataType_Int16, }, }, }, } return fd } // ValueByIdx returns value of the provided index // error occurs when index out of range func (c *ColumnInt16Array) ValueByIdx(idx int) ([]int16, error) { var r []int16 // use default value if idx < 0 || idx >= c.Len() { return r, errors.New("index out of range") } return c.values[idx], nil } // AppendValue append value into column func (c *ColumnInt16Array) AppendValue(i interface{}) error { v, ok := i.([]int16) if !ok { return fmt.Errorf("invalid type, expected []int16, got %T", i) } c.values = append(c.values, v) return nil } // Data returns column data func (c *ColumnInt16Array) Data() [][]int16 { return c.values } // NewColumnInt16 auto generated constructor func NewColumnInt16Array(name string, values [][]int16) *ColumnInt16Array { return &ColumnInt16Array{ name: name, values: values, } } // ColumnInt32Array generated columns type for Int32 type ColumnInt32Array struct { ColumnBase name string values [][]int32 } // Name returns column name func (c *ColumnInt32Array) Name() string { return c.name } // Type returns column entity.FieldType func (c *ColumnInt32Array) Type() entity.FieldType { return entity.FieldTypeArray } // Len returns column values length func (c *ColumnInt32Array) Len() int { return len(c.values) } func (c *ColumnInt32Array) Slice(start, end int) Column { l := c.Len() if start > l { start = l } if end == -1 || end > l { end = l } return &ColumnInt32Array{ ColumnBase: c.ColumnBase, name: c.name, values: c.values[start:end], } } // Get returns value at index as interface{}. func (c *ColumnInt32Array) Get(idx int) (interface{}, error) { var r []int32 // use default value if idx < 0 || idx >= c.Len() { return r, errors.New("index out of range") } return c.values[idx], nil } // FieldData return column data mapped to schemapb.FieldData func (c *ColumnInt32Array) FieldData() *schemapb.FieldData { fd := &schemapb.FieldData{ Type: schemapb.DataType_Array, FieldName: c.name, } data := make([]*schemapb.ScalarField, 0, c.Len()) for _, arr := range c.values { converted := make([]int32, 0, c.Len()) for i := 0; i < len(arr); i++ { converted = append(converted, int32(arr[i])) } data = append(data, &schemapb.ScalarField{ Data: &schemapb.ScalarField_IntData{ IntData: &schemapb.IntArray{ Data: converted, }, }, }) } fd.Field = &schemapb.FieldData_Scalars{ Scalars: &schemapb.ScalarField{ Data: &schemapb.ScalarField_ArrayData{ ArrayData: &schemapb.ArrayArray{ Data: data, ElementType: schemapb.DataType_Int32, }, }, }, } return fd } // ValueByIdx returns value of the provided index // error occurs when index out of range func (c *ColumnInt32Array) ValueByIdx(idx int) ([]int32, error) { var r []int32 // use default value if idx < 0 || idx >= c.Len() { return r, errors.New("index out of range") } return c.values[idx], nil } // AppendValue append value into column func (c *ColumnInt32Array) AppendValue(i interface{}) error { v, ok := i.([]int32) if !ok { return fmt.Errorf("invalid type, expected []int32, got %T", i) } c.values = append(c.values, v) return nil } // Data returns column data func (c *ColumnInt32Array) Data() [][]int32 { return c.values } // NewColumnInt32 auto generated constructor func NewColumnInt32Array(name string, values [][]int32) *ColumnInt32Array { return &ColumnInt32Array{ name: name, values: values, } } // ColumnInt64Array generated columns type for Int64 type ColumnInt64Array struct { ColumnBase name string values [][]int64 } // Name returns column name func (c *ColumnInt64Array) Name() string { return c.name } // Type returns column entity.FieldType func (c *ColumnInt64Array) Type() entity.FieldType { return entity.FieldTypeArray } // Len returns column values length func (c *ColumnInt64Array) Len() int { return len(c.values) } func (c *ColumnInt64Array) Slice(start, end int) Column { l := c.Len() if start > l { start = l } if end == -1 || end > l { end = l } return &ColumnInt64Array{ ColumnBase: c.ColumnBase, name: c.name, values: c.values[start:end], } } // Get returns value at index as interface{}. func (c *ColumnInt64Array) Get(idx int) (interface{}, error) { var r []int64 // use default value if idx < 0 || idx >= c.Len() { return r, errors.New("index out of range") } return c.values[idx], nil } // FieldData return column data mapped to schemapb.FieldData func (c *ColumnInt64Array) FieldData() *schemapb.FieldData { fd := &schemapb.FieldData{ Type: schemapb.DataType_Array, FieldName: c.name, } data := make([]*schemapb.ScalarField, 0, c.Len()) for _, arr := range c.values { converted := make([]int64, 0, c.Len()) for i := 0; i < len(arr); i++ { converted = append(converted, int64(arr[i])) } data = append(data, &schemapb.ScalarField{ Data: &schemapb.ScalarField_LongData{ LongData: &schemapb.LongArray{ Data: converted, }, }, }) } fd.Field = &schemapb.FieldData_Scalars{ Scalars: &schemapb.ScalarField{ Data: &schemapb.ScalarField_ArrayData{ ArrayData: &schemapb.ArrayArray{ Data: data, ElementType: schemapb.DataType_Int64, }, }, }, } return fd } // ValueByIdx returns value of the provided index // error occurs when index out of range func (c *ColumnInt64Array) ValueByIdx(idx int) ([]int64, error) { var r []int64 // use default value if idx < 0 || idx >= c.Len() { return r, errors.New("index out of range") } return c.values[idx], nil } // AppendValue append value into column func (c *ColumnInt64Array) AppendValue(i interface{}) error { v, ok := i.([]int64) if !ok { return fmt.Errorf("invalid type, expected []int64, got %T", i) } c.values = append(c.values, v) return nil } // Data returns column data func (c *ColumnInt64Array) Data() [][]int64 { return c.values } // NewColumnInt64 auto generated constructor func NewColumnInt64Array(name string, values [][]int64) *ColumnInt64Array { return &ColumnInt64Array{ name: name, values: values, } } // ColumnFloatArray generated columns type for Float type ColumnFloatArray struct { ColumnBase name string values [][]float32 } // Name returns column name func (c *ColumnFloatArray) Name() string { return c.name } // Type returns column entity.FieldType func (c *ColumnFloatArray) Type() entity.FieldType { return entity.FieldTypeArray } // Len returns column values length func (c *ColumnFloatArray) Len() int { return len(c.values) } func (c *ColumnFloatArray) Slice(start, end int) Column { l := c.Len() if start > l { start = l } if end == -1 || end > l { end = l } return &ColumnFloatArray{ ColumnBase: c.ColumnBase, name: c.name, values: c.values[start:end], } } // Get returns value at index as interface{}. func (c *ColumnFloatArray) Get(idx int) (interface{}, error) { var r []float32 // use default value if idx < 0 || idx >= c.Len() { return r, errors.New("index out of range") } return c.values[idx], nil } // FieldData return column data mapped to schemapb.FieldData func (c *ColumnFloatArray) FieldData() *schemapb.FieldData { fd := &schemapb.FieldData{ Type: schemapb.DataType_Array, FieldName: c.name, } data := make([]*schemapb.ScalarField, 0, c.Len()) for _, arr := range c.values { converted := make([]float32, 0, c.Len()) for i := 0; i < len(arr); i++ { converted = append(converted, float32(arr[i])) } data = append(data, &schemapb.ScalarField{ Data: &schemapb.ScalarField_FloatData{ FloatData: &schemapb.FloatArray{ Data: converted, }, }, }) } fd.Field = &schemapb.FieldData_Scalars{ Scalars: &schemapb.ScalarField{ Data: &schemapb.ScalarField_ArrayData{ ArrayData: &schemapb.ArrayArray{ Data: data, ElementType: schemapb.DataType_Float, }, }, }, } return fd } // ValueByIdx returns value of the provided index // error occurs when index out of range func (c *ColumnFloatArray) ValueByIdx(idx int) ([]float32, error) { var r []float32 // use default value if idx < 0 || idx >= c.Len() { return r, errors.New("index out of range") } return c.values[idx], nil } // AppendValue append value into column func (c *ColumnFloatArray) AppendValue(i interface{}) error { v, ok := i.([]float32) if !ok { return fmt.Errorf("invalid type, expected []float32, got %T", i) } c.values = append(c.values, v) return nil } // Data returns column data func (c *ColumnFloatArray) Data() [][]float32 { return c.values } // NewColumnFloat auto generated constructor func NewColumnFloatArray(name string, values [][]float32) *ColumnFloatArray { return &ColumnFloatArray{ name: name, values: values, } } // ColumnDoubleArray generated columns type for Double type ColumnDoubleArray struct { ColumnBase name string values [][]float64 } // Name returns column name func (c *ColumnDoubleArray) Name() string { return c.name } // Type returns column entity.FieldType func (c *ColumnDoubleArray) Type() entity.FieldType { return entity.FieldTypeArray } // Len returns column values length func (c *ColumnDoubleArray) Len() int { return len(c.values) } func (c *ColumnDoubleArray) Slice(start, end int) Column { l := c.Len() if start > l { start = l } if end == -1 || end > l { end = l } return &ColumnDoubleArray{ ColumnBase: c.ColumnBase, name: c.name, values: c.values[start:end], } } // Get returns value at index as interface{}. func (c *ColumnDoubleArray) Get(idx int) (interface{}, error) { var r []float64 // use default value if idx < 0 || idx >= c.Len() { return r, errors.New("index out of range") } return c.values[idx], nil } // FieldData return column data mapped to schemapb.FieldData func (c *ColumnDoubleArray) FieldData() *schemapb.FieldData { fd := &schemapb.FieldData{ Type: schemapb.DataType_Array, FieldName: c.name, } data := make([]*schemapb.ScalarField, 0, c.Len()) for _, arr := range c.values { converted := make([]float64, 0, c.Len()) for i := 0; i < len(arr); i++ { converted = append(converted, float64(arr[i])) } data = append(data, &schemapb.ScalarField{ Data: &schemapb.ScalarField_DoubleData{ DoubleData: &schemapb.DoubleArray{ Data: converted, }, }, }) } fd.Field = &schemapb.FieldData_Scalars{ Scalars: &schemapb.ScalarField{ Data: &schemapb.ScalarField_ArrayData{ ArrayData: &schemapb.ArrayArray{ Data: data, ElementType: schemapb.DataType_Double, }, }, }, } return fd } // ValueByIdx returns value of the provided index // error occurs when index out of range func (c *ColumnDoubleArray) ValueByIdx(idx int) ([]float64, error) { var r []float64 // use default value if idx < 0 || idx >= c.Len() { return r, errors.New("index out of range") } return c.values[idx], nil } // AppendValue append value into column func (c *ColumnDoubleArray) AppendValue(i interface{}) error { v, ok := i.([]float64) if !ok { return fmt.Errorf("invalid type, expected []float64, got %T", i) } c.values = append(c.values, v) return nil } // Data returns column data func (c *ColumnDoubleArray) Data() [][]float64 { return c.values } // NewColumnDouble auto generated constructor func NewColumnDoubleArray(name string, values [][]float64) *ColumnDoubleArray { return &ColumnDoubleArray{ name: name, values: values, } }