// Autogenerated by Thrift Compiler (0.10.0) // DO NOT EDIT UNLESS YOU ARE SURE THAT YOU KNOW WHAT YOU ARE DOING package parquet import ( "bytes" "database/sql/driver" "errors" "fmt" "git.apache.org/thrift.git/lib/go/thrift" ) // (needed to ensure safety because of naive import list construction.) var _ = thrift.ZERO var _ = fmt.Printf var _ = bytes.Equal //Types supported by Parquet. These types are intended to be used in combination //with the encodings to control the on disk storage format. //For example INT16 is not included as a type since a good encoding of INT32 //would handle this. type Type int64 const ( Type_BOOLEAN Type = 0 Type_INT32 Type = 1 Type_INT64 Type = 2 Type_INT96 Type = 3 Type_FLOAT Type = 4 Type_DOUBLE Type = 5 Type_BYTE_ARRAY Type = 6 Type_FIXED_LEN_BYTE_ARRAY Type = 7 ) func (p Type) String() string { switch p { case Type_BOOLEAN: return "BOOLEAN" case Type_INT32: return "INT32" case Type_INT64: return "INT64" case Type_INT96: return "INT96" case Type_FLOAT: return "FLOAT" case Type_DOUBLE: return "DOUBLE" case Type_BYTE_ARRAY: return "BYTE_ARRAY" case Type_FIXED_LEN_BYTE_ARRAY: return "FIXED_LEN_BYTE_ARRAY" } return "" } func TypeFromString(s string) (Type, error) { switch s { case "BOOLEAN": return Type_BOOLEAN, nil case "INT32": return Type_INT32, nil case "INT64": return Type_INT64, nil case "INT96": return Type_INT96, nil case "FLOAT": return Type_FLOAT, nil case "DOUBLE": return Type_DOUBLE, nil case "BYTE_ARRAY": return Type_BYTE_ARRAY, nil case "FIXED_LEN_BYTE_ARRAY": return Type_FIXED_LEN_BYTE_ARRAY, nil } return Type(0), fmt.Errorf("not a valid Type string") } func TypePtr(v Type) *Type { return &v } func (p Type) MarshalText() ([]byte, error) { return []byte(p.String()), nil } func (p *Type) UnmarshalText(text []byte) error { q, err := TypeFromString(string(text)) if err != nil { return err } *p = q return nil } func (p *Type) Scan(value interface{}) error { v, ok := value.(int64) if !ok { return errors.New("Scan value is not int64") } *p = Type(v) return nil } func (p *Type) Value() (driver.Value, error) { if p == nil { return nil, nil } return int64(*p), nil } //Common types used by frameworks(e.g. hive, pig) using parquet. This helps map //between types in those frameworks to the base types in parquet. This is only //metadata and not needed to read or write the data. type ConvertedType int64 const ( ConvertedType_UTF8 ConvertedType = 0 ConvertedType_MAP ConvertedType = 1 ConvertedType_MAP_KEY_VALUE ConvertedType = 2 ConvertedType_LIST ConvertedType = 3 ConvertedType_ENUM ConvertedType = 4 ConvertedType_DECIMAL ConvertedType = 5 ConvertedType_DATE ConvertedType = 6 ConvertedType_TIME_MILLIS ConvertedType = 7 ConvertedType_TIME_MICROS ConvertedType = 8 ConvertedType_TIMESTAMP_MILLIS ConvertedType = 9 ConvertedType_TIMESTAMP_MICROS ConvertedType = 10 ConvertedType_UINT_8 ConvertedType = 11 ConvertedType_UINT_16 ConvertedType = 12 ConvertedType_UINT_32 ConvertedType = 13 ConvertedType_UINT_64 ConvertedType = 14 ConvertedType_INT_8 ConvertedType = 15 ConvertedType_INT_16 ConvertedType = 16 ConvertedType_INT_32 ConvertedType = 17 ConvertedType_INT_64 ConvertedType = 18 ConvertedType_JSON ConvertedType = 19 ConvertedType_BSON ConvertedType = 20 ConvertedType_INTERVAL ConvertedType = 21 ) func (p ConvertedType) String() string { switch p { case ConvertedType_UTF8: return "UTF8" case ConvertedType_MAP: return "MAP" case ConvertedType_MAP_KEY_VALUE: return "MAP_KEY_VALUE" case ConvertedType_LIST: return "LIST" case ConvertedType_ENUM: return "ENUM" case ConvertedType_DECIMAL: return "DECIMAL" case ConvertedType_DATE: return "DATE" case ConvertedType_TIME_MILLIS: return "TIME_MILLIS" case ConvertedType_TIME_MICROS: return "TIME_MICROS" case ConvertedType_TIMESTAMP_MILLIS: return "TIMESTAMP_MILLIS" case ConvertedType_TIMESTAMP_MICROS: return "TIMESTAMP_MICROS" case ConvertedType_UINT_8: return "UINT_8" case ConvertedType_UINT_16: return "UINT_16" case ConvertedType_UINT_32: return "UINT_32" case ConvertedType_UINT_64: return "UINT_64" case ConvertedType_INT_8: return "INT_8" case ConvertedType_INT_16: return "INT_16" case ConvertedType_INT_32: return "INT_32" case ConvertedType_INT_64: return "INT_64" case ConvertedType_JSON: return "JSON" case ConvertedType_BSON: return "BSON" case ConvertedType_INTERVAL: return "INTERVAL" } return "" } func ConvertedTypeFromString(s string) (ConvertedType, error) { switch s { case "UTF8": return ConvertedType_UTF8, nil case "MAP": return ConvertedType_MAP, nil case "MAP_KEY_VALUE": return ConvertedType_MAP_KEY_VALUE, nil case "LIST": return ConvertedType_LIST, nil case "ENUM": return ConvertedType_ENUM, nil case "DECIMAL": return ConvertedType_DECIMAL, nil case "DATE": return ConvertedType_DATE, nil case "TIME_MILLIS": return ConvertedType_TIME_MILLIS, nil case "TIME_MICROS": return ConvertedType_TIME_MICROS, nil case "TIMESTAMP_MILLIS": return ConvertedType_TIMESTAMP_MILLIS, nil case "TIMESTAMP_MICROS": return ConvertedType_TIMESTAMP_MICROS, nil case "UINT_8": return ConvertedType_UINT_8, nil case "UINT_16": return ConvertedType_UINT_16, nil case "UINT_32": return ConvertedType_UINT_32, nil case "UINT_64": return ConvertedType_UINT_64, nil case "INT_8": return ConvertedType_INT_8, nil case "INT_16": return ConvertedType_INT_16, nil case "INT_32": return ConvertedType_INT_32, nil case "INT_64": return ConvertedType_INT_64, nil case "JSON": return ConvertedType_JSON, nil case "BSON": return ConvertedType_BSON, nil case "INTERVAL": return ConvertedType_INTERVAL, nil } return ConvertedType(0), fmt.Errorf("not a valid ConvertedType string") } func ConvertedTypePtr(v ConvertedType) *ConvertedType { return &v } func (p ConvertedType) MarshalText() ([]byte, error) { return []byte(p.String()), nil } func (p *ConvertedType) UnmarshalText(text []byte) error { q, err := ConvertedTypeFromString(string(text)) if err != nil { return err } *p = q return nil } func (p *ConvertedType) Scan(value interface{}) error { v, ok := value.(int64) if !ok { return errors.New("Scan value is not int64") } *p = ConvertedType(v) return nil } func (p *ConvertedType) Value() (driver.Value, error) { if p == nil { return nil, nil } return int64(*p), nil } //Representation of Schemas type FieldRepetitionType int64 const ( FieldRepetitionType_REQUIRED FieldRepetitionType = 0 FieldRepetitionType_OPTIONAL FieldRepetitionType = 1 FieldRepetitionType_REPEATED FieldRepetitionType = 2 ) func (p FieldRepetitionType) String() string { switch p { case FieldRepetitionType_REQUIRED: return "REQUIRED" case FieldRepetitionType_OPTIONAL: return "OPTIONAL" case FieldRepetitionType_REPEATED: return "REPEATED" } return "" } func FieldRepetitionTypeFromString(s string) (FieldRepetitionType, error) { switch s { case "REQUIRED": return FieldRepetitionType_REQUIRED, nil case "OPTIONAL": return FieldRepetitionType_OPTIONAL, nil case "REPEATED": return FieldRepetitionType_REPEATED, nil } return FieldRepetitionType(0), fmt.Errorf("not a valid FieldRepetitionType string") } func FieldRepetitionTypePtr(v FieldRepetitionType) *FieldRepetitionType { return &v } func (p FieldRepetitionType) MarshalText() ([]byte, error) { return []byte(p.String()), nil } func (p *FieldRepetitionType) UnmarshalText(text []byte) error { q, err := FieldRepetitionTypeFromString(string(text)) if err != nil { return err } *p = q return nil } func (p *FieldRepetitionType) Scan(value interface{}) error { v, ok := value.(int64) if !ok { return errors.New("Scan value is not int64") } *p = FieldRepetitionType(v) return nil } func (p *FieldRepetitionType) Value() (driver.Value, error) { if p == nil { return nil, nil } return int64(*p), nil } //Encodings supported by Parquet. Not all encodings are valid for all types. These //enums are also used to specify the encoding of definition and repetition levels. //See the accompanying doc for the details of the more complicated encodings. type Encoding int64 const ( Encoding_PLAIN Encoding = 0 Encoding_PLAIN_DICTIONARY Encoding = 2 Encoding_RLE Encoding = 3 Encoding_BIT_PACKED Encoding = 4 Encoding_DELTA_BINARY_PACKED Encoding = 5 Encoding_DELTA_LENGTH_BYTE_ARRAY Encoding = 6 Encoding_DELTA_BYTE_ARRAY Encoding = 7 Encoding_RLE_DICTIONARY Encoding = 8 ) func (p Encoding) String() string { switch p { case Encoding_PLAIN: return "PLAIN" case Encoding_PLAIN_DICTIONARY: return "PLAIN_DICTIONARY" case Encoding_RLE: return "RLE" case Encoding_BIT_PACKED: return "BIT_PACKED" case Encoding_DELTA_BINARY_PACKED: return "DELTA_BINARY_PACKED" case Encoding_DELTA_LENGTH_BYTE_ARRAY: return "DELTA_LENGTH_BYTE_ARRAY" case Encoding_DELTA_BYTE_ARRAY: return "DELTA_BYTE_ARRAY" case Encoding_RLE_DICTIONARY: return "RLE_DICTIONARY" } return "" } func EncodingFromString(s string) (Encoding, error) { switch s { case "PLAIN": return Encoding_PLAIN, nil case "PLAIN_DICTIONARY": return Encoding_PLAIN_DICTIONARY, nil case "RLE": return Encoding_RLE, nil case "BIT_PACKED": return Encoding_BIT_PACKED, nil case "DELTA_BINARY_PACKED": return Encoding_DELTA_BINARY_PACKED, nil case "DELTA_LENGTH_BYTE_ARRAY": return Encoding_DELTA_LENGTH_BYTE_ARRAY, nil case "DELTA_BYTE_ARRAY": return Encoding_DELTA_BYTE_ARRAY, nil case "RLE_DICTIONARY": return Encoding_RLE_DICTIONARY, nil } return Encoding(0), fmt.Errorf("not a valid Encoding string") } func EncodingPtr(v Encoding) *Encoding { return &v } func (p Encoding) MarshalText() ([]byte, error) { return []byte(p.String()), nil } func (p *Encoding) UnmarshalText(text []byte) error { q, err := EncodingFromString(string(text)) if err != nil { return err } *p = q return nil } func (p *Encoding) Scan(value interface{}) error { v, ok := value.(int64) if !ok { return errors.New("Scan value is not int64") } *p = Encoding(v) return nil } func (p *Encoding) Value() (driver.Value, error) { if p == nil { return nil, nil } return int64(*p), nil } //Supported compression algorithms. // //Codecs added in 2.4 can be read by readers based on 2.4 and later. //Codec support may vary between readers based on the format version and //libraries available at runtime. Gzip, Snappy, and LZ4 codecs are //widely available, while Zstd and Brotli require additional libraries. type CompressionCodec int64 const ( CompressionCodec_UNCOMPRESSED CompressionCodec = 0 CompressionCodec_SNAPPY CompressionCodec = 1 CompressionCodec_GZIP CompressionCodec = 2 CompressionCodec_LZO CompressionCodec = 3 CompressionCodec_BROTLI CompressionCodec = 4 CompressionCodec_LZ4 CompressionCodec = 5 CompressionCodec_ZSTD CompressionCodec = 6 ) func (p CompressionCodec) String() string { switch p { case CompressionCodec_UNCOMPRESSED: return "UNCOMPRESSED" case CompressionCodec_SNAPPY: return "SNAPPY" case CompressionCodec_GZIP: return "GZIP" case CompressionCodec_LZO: return "LZO" case CompressionCodec_BROTLI: return "BROTLI" case CompressionCodec_LZ4: return "LZ4" case CompressionCodec_ZSTD: return "ZSTD" } return "" } func CompressionCodecFromString(s string) (CompressionCodec, error) { switch s { case "UNCOMPRESSED": return CompressionCodec_UNCOMPRESSED, nil case "SNAPPY": return CompressionCodec_SNAPPY, nil case "GZIP": return CompressionCodec_GZIP, nil case "LZO": return CompressionCodec_LZO, nil case "BROTLI": return CompressionCodec_BROTLI, nil case "LZ4": return CompressionCodec_LZ4, nil case "ZSTD": return CompressionCodec_ZSTD, nil } return CompressionCodec(0), fmt.Errorf("not a valid CompressionCodec string") } func CompressionCodecPtr(v CompressionCodec) *CompressionCodec { return &v } func (p CompressionCodec) MarshalText() ([]byte, error) { return []byte(p.String()), nil } func (p *CompressionCodec) UnmarshalText(text []byte) error { q, err := CompressionCodecFromString(string(text)) if err != nil { return err } *p = q return nil } func (p *CompressionCodec) Scan(value interface{}) error { v, ok := value.(int64) if !ok { return errors.New("Scan value is not int64") } *p = CompressionCodec(v) return nil } func (p *CompressionCodec) Value() (driver.Value, error) { if p == nil { return nil, nil } return int64(*p), nil } type PageType int64 const ( PageType_DATA_PAGE PageType = 0 PageType_INDEX_PAGE PageType = 1 PageType_DICTIONARY_PAGE PageType = 2 PageType_DATA_PAGE_V2 PageType = 3 ) func (p PageType) String() string { switch p { case PageType_DATA_PAGE: return "DATA_PAGE" case PageType_INDEX_PAGE: return "INDEX_PAGE" case PageType_DICTIONARY_PAGE: return "DICTIONARY_PAGE" case PageType_DATA_PAGE_V2: return "DATA_PAGE_V2" } return "" } func PageTypeFromString(s string) (PageType, error) { switch s { case "DATA_PAGE": return PageType_DATA_PAGE, nil case "INDEX_PAGE": return PageType_INDEX_PAGE, nil case "DICTIONARY_PAGE": return PageType_DICTIONARY_PAGE, nil case "DATA_PAGE_V2": return PageType_DATA_PAGE_V2, nil } return PageType(0), fmt.Errorf("not a valid PageType string") } func PageTypePtr(v PageType) *PageType { return &v } func (p PageType) MarshalText() ([]byte, error) { return []byte(p.String()), nil } func (p *PageType) UnmarshalText(text []byte) error { q, err := PageTypeFromString(string(text)) if err != nil { return err } *p = q return nil } func (p *PageType) Scan(value interface{}) error { v, ok := value.(int64) if !ok { return errors.New("Scan value is not int64") } *p = PageType(v) return nil } func (p *PageType) Value() (driver.Value, error) { if p == nil { return nil, nil } return int64(*p), nil } //Enum to annotate whether lists of min/max elements inside ColumnIndex //are ordered and if so, in which direction. type BoundaryOrder int64 const ( BoundaryOrder_UNORDERED BoundaryOrder = 0 BoundaryOrder_ASCENDING BoundaryOrder = 1 BoundaryOrder_DESCENDING BoundaryOrder = 2 ) func (p BoundaryOrder) String() string { switch p { case BoundaryOrder_UNORDERED: return "UNORDERED" case BoundaryOrder_ASCENDING: return "ASCENDING" case BoundaryOrder_DESCENDING: return "DESCENDING" } return "" } func BoundaryOrderFromString(s string) (BoundaryOrder, error) { switch s { case "UNORDERED": return BoundaryOrder_UNORDERED, nil case "ASCENDING": return BoundaryOrder_ASCENDING, nil case "DESCENDING": return BoundaryOrder_DESCENDING, nil } return BoundaryOrder(0), fmt.Errorf("not a valid BoundaryOrder string") } func BoundaryOrderPtr(v BoundaryOrder) *BoundaryOrder { return &v } func (p BoundaryOrder) MarshalText() ([]byte, error) { return []byte(p.String()), nil } func (p *BoundaryOrder) UnmarshalText(text []byte) error { q, err := BoundaryOrderFromString(string(text)) if err != nil { return err } *p = q return nil } func (p *BoundaryOrder) Scan(value interface{}) error { v, ok := value.(int64) if !ok { return errors.New("Scan value is not int64") } *p = BoundaryOrder(v) return nil } func (p *BoundaryOrder) Value() (driver.Value, error) { if p == nil { return nil, nil } return int64(*p), nil } // Statistics per row group and per page // All fields are optional. // // Attributes: // - Max: DEPRECATED: min and max value of the column. Use min_value and max_value. // // Values are encoded using PLAIN encoding, except that variable-length byte // arrays do not include a length prefix. // // These fields encode min and max values determined by signed comparison // only. New files should use the correct order for a column's logical type // and store the values in the min_value and max_value fields. // // To support older readers, these may be set when the column order is // signed. // - Min // - NullCount: count of null value in the column // - DistinctCount: count of distinct values occurring // - MaxValue: Min and max values for the column, determined by its ColumnOrder. // // Values are encoded using PLAIN encoding, except that variable-length byte // arrays do not include a length prefix. // - MinValue type Statistics struct { Max []byte `thrift:"max,1" db:"max" json:"max,omitempty"` Min []byte `thrift:"min,2" db:"min" json:"min,omitempty"` NullCount *int64 `thrift:"null_count,3" db:"null_count" json:"null_count,omitempty"` DistinctCount *int64 `thrift:"distinct_count,4" db:"distinct_count" json:"distinct_count,omitempty"` MaxValue []byte `thrift:"max_value,5" db:"max_value" json:"max_value,omitempty"` MinValue []byte `thrift:"min_value,6" db:"min_value" json:"min_value,omitempty"` } func NewStatistics() *Statistics { return &Statistics{} } var Statistics_Max_DEFAULT []byte func (p *Statistics) GetMax() []byte { return p.Max } var Statistics_Min_DEFAULT []byte func (p *Statistics) GetMin() []byte { return p.Min } var Statistics_NullCount_DEFAULT int64 func (p *Statistics) GetNullCount() int64 { if !p.IsSetNullCount() { return Statistics_NullCount_DEFAULT } return *p.NullCount } var Statistics_DistinctCount_DEFAULT int64 func (p *Statistics) GetDistinctCount() int64 { if !p.IsSetDistinctCount() { return Statistics_DistinctCount_DEFAULT } return *p.DistinctCount } var Statistics_MaxValue_DEFAULT []byte func (p *Statistics) GetMaxValue() []byte { return p.MaxValue } var Statistics_MinValue_DEFAULT []byte func (p *Statistics) GetMinValue() []byte { return p.MinValue } func (p *Statistics) IsSetMax() bool { return p.Max != nil } func (p *Statistics) IsSetMin() bool { return p.Min != nil } func (p *Statistics) IsSetNullCount() bool { return p.NullCount != nil } func (p *Statistics) IsSetDistinctCount() bool { return p.DistinctCount != nil } func (p *Statistics) IsSetMaxValue() bool { return p.MaxValue != nil } func (p *Statistics) IsSetMinValue() bool { return p.MinValue != nil } func (p *Statistics) Read(iprot thrift.TProtocol) error { if _, err := iprot.ReadStructBegin(); err != nil { return thrift.PrependError(fmt.Sprintf("%T read error: ", p), err) } for { _, fieldTypeId, fieldId, err := iprot.ReadFieldBegin() if err != nil { return thrift.PrependError(fmt.Sprintf("%T field %d read error: ", p, fieldId), err) } if fieldTypeId == thrift.STOP { break } switch fieldId { case 1: if err := p.ReadField1(iprot); err != nil { return err } case 2: if err := p.ReadField2(iprot); err != nil { return err } case 3: if err := p.ReadField3(iprot); err != nil { return err } case 4: if err := p.ReadField4(iprot); err != nil { return err } case 5: if err := p.ReadField5(iprot); err != nil { return err } case 6: if err := p.ReadField6(iprot); err != nil { return err } default: if err := iprot.Skip(fieldTypeId); err != nil { return err } } if err := iprot.ReadFieldEnd(); err != nil { return err } } if err := iprot.ReadStructEnd(); err != nil { return thrift.PrependError(fmt.Sprintf("%T read struct end error: ", p), err) } return nil } func (p *Statistics) ReadField1(iprot thrift.TProtocol) error { if v, err := iprot.ReadBinary(); err != nil { return thrift.PrependError("error reading field 1: ", err) } else { p.Max = v } return nil } func (p *Statistics) ReadField2(iprot thrift.TProtocol) error { if v, err := iprot.ReadBinary(); err != nil { return thrift.PrependError("error reading field 2: ", err) } else { p.Min = v } return nil } func (p *Statistics) ReadField3(iprot thrift.TProtocol) error { if v, err := iprot.ReadI64(); err != nil { return thrift.PrependError("error reading field 3: ", err) } else { p.NullCount = &v } return nil } func (p *Statistics) ReadField4(iprot thrift.TProtocol) error { if v, err := iprot.ReadI64(); err != nil { return thrift.PrependError("error reading field 4: ", err) } else { p.DistinctCount = &v } return nil } func (p *Statistics) ReadField5(iprot thrift.TProtocol) error { if v, err := iprot.ReadBinary(); err != nil { return thrift.PrependError("error reading field 5: ", err) } else { p.MaxValue = v } return nil } func (p *Statistics) ReadField6(iprot thrift.TProtocol) error { if v, err := iprot.ReadBinary(); err != nil { return thrift.PrependError("error reading field 6: ", err) } else { p.MinValue = v } return nil } func (p *Statistics) Write(oprot thrift.TProtocol) error { if err := oprot.WriteStructBegin("Statistics"); err != nil { return thrift.PrependError(fmt.Sprintf("%T write struct begin error: ", p), err) } if p != nil { if err := p.writeField1(oprot); err != nil { return err } if err := p.writeField2(oprot); err != nil { return err } if err := p.writeField3(oprot); err != nil { return err } if err := p.writeField4(oprot); err != nil { return err } if err := p.writeField5(oprot); err != nil { return err } if err := p.writeField6(oprot); err != nil { return err } } if err := oprot.WriteFieldStop(); err != nil { return thrift.PrependError("write field stop error: ", err) } if err := oprot.WriteStructEnd(); err != nil { return thrift.PrependError("write struct stop error: ", err) } return nil } func (p *Statistics) writeField1(oprot thrift.TProtocol) (err error) { if p.IsSetMax() { if err := oprot.WriteFieldBegin("max", thrift.STRING, 1); err != nil { return thrift.PrependError(fmt.Sprintf("%T write field begin error 1:max: ", p), err) } if err := oprot.WriteBinary(p.Max); err != nil { return thrift.PrependError(fmt.Sprintf("%T.max (1) field write error: ", p), err) } if err := oprot.WriteFieldEnd(); err != nil { return thrift.PrependError(fmt.Sprintf("%T write field end error 1:max: ", p), err) } } return err } func (p *Statistics) writeField2(oprot thrift.TProtocol) (err error) { if p.IsSetMin() { if err := oprot.WriteFieldBegin("min", thrift.STRING, 2); err != nil { return thrift.PrependError(fmt.Sprintf("%T write field begin error 2:min: ", p), err) } if err := oprot.WriteBinary(p.Min); err != nil { return thrift.PrependError(fmt.Sprintf("%T.min (2) field write error: ", p), err) } if err := oprot.WriteFieldEnd(); err != nil { return thrift.PrependError(fmt.Sprintf("%T write field end error 2:min: ", p), err) } } return err } func (p *Statistics) writeField3(oprot thrift.TProtocol) (err error) { if p.IsSetNullCount() { if err := oprot.WriteFieldBegin("null_count", thrift.I64, 3); err != nil { return thrift.PrependError(fmt.Sprintf("%T write field begin error 3:null_count: ", p), err) } if err := oprot.WriteI64(*p.NullCount); err != nil { return thrift.PrependError(fmt.Sprintf("%T.null_count (3) field write error: ", p), err) } if err := oprot.WriteFieldEnd(); err != nil { return thrift.PrependError(fmt.Sprintf("%T write field end error 3:null_count: ", p), err) } } return err } func (p *Statistics) writeField4(oprot thrift.TProtocol) (err error) { if p.IsSetDistinctCount() { if err := oprot.WriteFieldBegin("distinct_count", thrift.I64, 4); err != nil { return thrift.PrependError(fmt.Sprintf("%T write field begin error 4:distinct_count: ", p), err) } if err := oprot.WriteI64(*p.DistinctCount); err != nil { return thrift.PrependError(fmt.Sprintf("%T.distinct_count (4) field write error: ", p), err) } if err := oprot.WriteFieldEnd(); err != nil { return thrift.PrependError(fmt.Sprintf("%T write field end error 4:distinct_count: ", p), err) } } return err } func (p *Statistics) writeField5(oprot thrift.TProtocol) (err error) { if p.IsSetMaxValue() { if err := oprot.WriteFieldBegin("max_value", thrift.STRING, 5); err != nil { return thrift.PrependError(fmt.Sprintf("%T write field begin error 5:max_value: ", p), err) } if err := oprot.WriteBinary(p.MaxValue); err != nil { return thrift.PrependError(fmt.Sprintf("%T.max_value (5) field write error: ", p), err) } if err := oprot.WriteFieldEnd(); err != nil { return thrift.PrependError(fmt.Sprintf("%T write field end error 5:max_value: ", p), err) } } return err } func (p *Statistics) writeField6(oprot thrift.TProtocol) (err error) { if p.IsSetMinValue() { if err := oprot.WriteFieldBegin("min_value", thrift.STRING, 6); err != nil { return thrift.PrependError(fmt.Sprintf("%T write field begin error 6:min_value: ", p), err) } if err := oprot.WriteBinary(p.MinValue); err != nil { return thrift.PrependError(fmt.Sprintf("%T.min_value (6) field write error: ", p), err) } if err := oprot.WriteFieldEnd(); err != nil { return thrift.PrependError(fmt.Sprintf("%T write field end error 6:min_value: ", p), err) } } return err } func (p *Statistics) String() string { if p == nil { return "" } return fmt.Sprintf("Statistics(%+v)", *p) } // Empty structs to use as logical type annotations type StringType struct { } func NewStringType() *StringType { return &StringType{} } func (p *StringType) Read(iprot thrift.TProtocol) error { if _, err := iprot.ReadStructBegin(); err != nil { return thrift.PrependError(fmt.Sprintf("%T read error: ", p), err) } for { _, fieldTypeId, fieldId, err := iprot.ReadFieldBegin() if err != nil { return thrift.PrependError(fmt.Sprintf("%T field %d read error: ", p, fieldId), err) } if fieldTypeId == thrift.STOP { break } if err := iprot.Skip(fieldTypeId); err != nil { return err } if err := iprot.ReadFieldEnd(); err != nil { return err } } if err := iprot.ReadStructEnd(); err != nil { return thrift.PrependError(fmt.Sprintf("%T read struct end error: ", p), err) } return nil } func (p *StringType) Write(oprot thrift.TProtocol) error { if err := oprot.WriteStructBegin("StringType"); err != nil { return thrift.PrependError(fmt.Sprintf("%T write struct begin error: ", p), err) } if p != nil { } if err := oprot.WriteFieldStop(); err != nil { return thrift.PrependError("write field stop error: ", err) } if err := oprot.WriteStructEnd(); err != nil { return thrift.PrependError("write struct stop error: ", err) } return nil } func (p *StringType) String() string { if p == nil { return "" } return fmt.Sprintf("StringType(%+v)", *p) } type UUIDType struct { } func NewUUIDType() *UUIDType { return &UUIDType{} } func (p *UUIDType) Read(iprot thrift.TProtocol) error { if _, err := iprot.ReadStructBegin(); err != nil { return thrift.PrependError(fmt.Sprintf("%T read error: ", p), err) } for { _, fieldTypeId, fieldId, err := iprot.ReadFieldBegin() if err != nil { return thrift.PrependError(fmt.Sprintf("%T field %d read error: ", p, fieldId), err) } if fieldTypeId == thrift.STOP { break } if err := iprot.Skip(fieldTypeId); err != nil { return err } if err := iprot.ReadFieldEnd(); err != nil { return err } } if err := iprot.ReadStructEnd(); err != nil { return thrift.PrependError(fmt.Sprintf("%T read struct end error: ", p), err) } return nil } func (p *UUIDType) Write(oprot thrift.TProtocol) error { if err := oprot.WriteStructBegin("UUIDType"); err != nil { return thrift.PrependError(fmt.Sprintf("%T write struct begin error: ", p), err) } if p != nil { } if err := oprot.WriteFieldStop(); err != nil { return thrift.PrependError("write field stop error: ", err) } if err := oprot.WriteStructEnd(); err != nil { return thrift.PrependError("write struct stop error: ", err) } return nil } func (p *UUIDType) String() string { if p == nil { return "" } return fmt.Sprintf("UUIDType(%+v)", *p) } type MapType struct { } func NewMapType() *MapType { return &MapType{} } func (p *MapType) Read(iprot thrift.TProtocol) error { if _, err := iprot.ReadStructBegin(); err != nil { return thrift.PrependError(fmt.Sprintf("%T read error: ", p), err) } for { _, fieldTypeId, fieldId, err := iprot.ReadFieldBegin() if err != nil { return thrift.PrependError(fmt.Sprintf("%T field %d read error: ", p, fieldId), err) } if fieldTypeId == thrift.STOP { break } if err := iprot.Skip(fieldTypeId); err != nil { return err } if err := iprot.ReadFieldEnd(); err != nil { return err } } if err := iprot.ReadStructEnd(); err != nil { return thrift.PrependError(fmt.Sprintf("%T read struct end error: ", p), err) } return nil } func (p *MapType) Write(oprot thrift.TProtocol) error { if err := oprot.WriteStructBegin("MapType"); err != nil { return thrift.PrependError(fmt.Sprintf("%T write struct begin error: ", p), err) } if p != nil { } if err := oprot.WriteFieldStop(); err != nil { return thrift.PrependError("write field stop error: ", err) } if err := oprot.WriteStructEnd(); err != nil { return thrift.PrependError("write struct stop error: ", err) } return nil } func (p *MapType) String() string { if p == nil { return "" } return fmt.Sprintf("MapType(%+v)", *p) } type ListType struct { } func NewListType() *ListType { return &ListType{} } func (p *ListType) Read(iprot thrift.TProtocol) error { if _, err := iprot.ReadStructBegin(); err != nil { return thrift.PrependError(fmt.Sprintf("%T read error: ", p), err) } for { _, fieldTypeId, fieldId, err := iprot.ReadFieldBegin() if err != nil { return thrift.PrependError(fmt.Sprintf("%T field %d read error: ", p, fieldId), err) } if fieldTypeId == thrift.STOP { break } if err := iprot.Skip(fieldTypeId); err != nil { return err } if err := iprot.ReadFieldEnd(); err != nil { return err } } if err := iprot.ReadStructEnd(); err != nil { return thrift.PrependError(fmt.Sprintf("%T read struct end error: ", p), err) } return nil } func (p *ListType) Write(oprot thrift.TProtocol) error { if err := oprot.WriteStructBegin("ListType"); err != nil { return thrift.PrependError(fmt.Sprintf("%T write struct begin error: ", p), err) } if p != nil { } if err := oprot.WriteFieldStop(); err != nil { return thrift.PrependError("write field stop error: ", err) } if err := oprot.WriteStructEnd(); err != nil { return thrift.PrependError("write struct stop error: ", err) } return nil } func (p *ListType) String() string { if p == nil { return "" } return fmt.Sprintf("ListType(%+v)", *p) } type EnumType struct { } func NewEnumType() *EnumType { return &EnumType{} } func (p *EnumType) Read(iprot thrift.TProtocol) error { if _, err := iprot.ReadStructBegin(); err != nil { return thrift.PrependError(fmt.Sprintf("%T read error: ", p), err) } for { _, fieldTypeId, fieldId, err := iprot.ReadFieldBegin() if err != nil { return thrift.PrependError(fmt.Sprintf("%T field %d read error: ", p, fieldId), err) } if fieldTypeId == thrift.STOP { break } if err := iprot.Skip(fieldTypeId); err != nil { return err } if err := iprot.ReadFieldEnd(); err != nil { return err } } if err := iprot.ReadStructEnd(); err != nil { return thrift.PrependError(fmt.Sprintf("%T read struct end error: ", p), err) } return nil } func (p *EnumType) Write(oprot thrift.TProtocol) error { if err := oprot.WriteStructBegin("EnumType"); err != nil { return thrift.PrependError(fmt.Sprintf("%T write struct begin error: ", p), err) } if p != nil { } if err := oprot.WriteFieldStop(); err != nil { return thrift.PrependError("write field stop error: ", err) } if err := oprot.WriteStructEnd(); err != nil { return thrift.PrependError("write struct stop error: ", err) } return nil } func (p *EnumType) String() string { if p == nil { return "" } return fmt.Sprintf("EnumType(%+v)", *p) } type DateType struct { } func NewDateType() *DateType { return &DateType{} } func (p *DateType) Read(iprot thrift.TProtocol) error { if _, err := iprot.ReadStructBegin(); err != nil { return thrift.PrependError(fmt.Sprintf("%T read error: ", p), err) } for { _, fieldTypeId, fieldId, err := iprot.ReadFieldBegin() if err != nil { return thrift.PrependError(fmt.Sprintf("%T field %d read error: ", p, fieldId), err) } if fieldTypeId == thrift.STOP { break } if err := iprot.Skip(fieldTypeId); err != nil { return err } if err := iprot.ReadFieldEnd(); err != nil { return err } } if err := iprot.ReadStructEnd(); err != nil { return thrift.PrependError(fmt.Sprintf("%T read struct end error: ", p), err) } return nil } func (p *DateType) Write(oprot thrift.TProtocol) error { if err := oprot.WriteStructBegin("DateType"); err != nil { return thrift.PrependError(fmt.Sprintf("%T write struct begin error: ", p), err) } if p != nil { } if err := oprot.WriteFieldStop(); err != nil { return thrift.PrependError("write field stop error: ", err) } if err := oprot.WriteStructEnd(); err != nil { return thrift.PrependError("write struct stop error: ", err) } return nil } func (p *DateType) String() string { if p == nil { return "" } return fmt.Sprintf("DateType(%+v)", *p) } // Logical type to annotate a column that is always null. // // Sometimes when discovering the schema of existing data, values are always // null and the physical type can't be determined. This annotation signals // the case where the physical type was guessed from all null values. type NullType struct { } func NewNullType() *NullType { return &NullType{} } func (p *NullType) Read(iprot thrift.TProtocol) error { if _, err := iprot.ReadStructBegin(); err != nil { return thrift.PrependError(fmt.Sprintf("%T read error: ", p), err) } for { _, fieldTypeId, fieldId, err := iprot.ReadFieldBegin() if err != nil { return thrift.PrependError(fmt.Sprintf("%T field %d read error: ", p, fieldId), err) } if fieldTypeId == thrift.STOP { break } if err := iprot.Skip(fieldTypeId); err != nil { return err } if err := iprot.ReadFieldEnd(); err != nil { return err } } if err := iprot.ReadStructEnd(); err != nil { return thrift.PrependError(fmt.Sprintf("%T read struct end error: ", p), err) } return nil } func (p *NullType) Write(oprot thrift.TProtocol) error { if err := oprot.WriteStructBegin("NullType"); err != nil { return thrift.PrependError(fmt.Sprintf("%T write struct begin error: ", p), err) } if p != nil { } if err := oprot.WriteFieldStop(); err != nil { return thrift.PrependError("write field stop error: ", err) } if err := oprot.WriteStructEnd(); err != nil { return thrift.PrependError("write struct stop error: ", err) } return nil } func (p *NullType) String() string { if p == nil { return "" } return fmt.Sprintf("NullType(%+v)", *p) } // Decimal logical type annotation // // To maintain forward-compatibility in v1, implementations using this logical // type must also set scale and precision on the annotated SchemaElement. // // Allowed for physical types: INT32, INT64, FIXED, and BINARY // // Attributes: // - Scale // - Precision type DecimalType struct { Scale int32 `thrift:"scale,1,required" db:"scale" json:"scale"` Precision int32 `thrift:"precision,2,required" db:"precision" json:"precision"` } func NewDecimalType() *DecimalType { return &DecimalType{} } func (p *DecimalType) GetScale() int32 { return p.Scale } func (p *DecimalType) GetPrecision() int32 { return p.Precision } func (p *DecimalType) Read(iprot thrift.TProtocol) error { if _, err := iprot.ReadStructBegin(); err != nil { return thrift.PrependError(fmt.Sprintf("%T read error: ", p), err) } var issetScale bool = false var issetPrecision bool = false for { _, fieldTypeId, fieldId, err := iprot.ReadFieldBegin() if err != nil { return thrift.PrependError(fmt.Sprintf("%T field %d read error: ", p, fieldId), err) } if fieldTypeId == thrift.STOP { break } switch fieldId { case 1: if err := p.ReadField1(iprot); err != nil { return err } issetScale = true case 2: if err := p.ReadField2(iprot); err != nil { return err } issetPrecision = true default: if err := iprot.Skip(fieldTypeId); err != nil { return err } } if err := iprot.ReadFieldEnd(); err != nil { return err } } if err := iprot.ReadStructEnd(); err != nil { return thrift.PrependError(fmt.Sprintf("%T read struct end error: ", p), err) } if !issetScale { return thrift.NewTProtocolExceptionWithType(thrift.INVALID_DATA, fmt.Errorf("Required field Scale is not set")) } if !issetPrecision { return thrift.NewTProtocolExceptionWithType(thrift.INVALID_DATA, fmt.Errorf("Required field Precision is not set")) } return nil } func (p *DecimalType) ReadField1(iprot thrift.TProtocol) error { if v, err := iprot.ReadI32(); err != nil { return thrift.PrependError("error reading field 1: ", err) } else { p.Scale = v } return nil } func (p *DecimalType) ReadField2(iprot thrift.TProtocol) error { if v, err := iprot.ReadI32(); err != nil { return thrift.PrependError("error reading field 2: ", err) } else { p.Precision = v } return nil } func (p *DecimalType) Write(oprot thrift.TProtocol) error { if err := oprot.WriteStructBegin("DecimalType"); err != nil { return thrift.PrependError(fmt.Sprintf("%T write struct begin error: ", p), err) } if p != nil { if err := p.writeField1(oprot); err != nil { return err } if err := p.writeField2(oprot); err != nil { return err } } if err := oprot.WriteFieldStop(); err != nil { return thrift.PrependError("write field stop error: ", err) } if err := oprot.WriteStructEnd(); err != nil { return thrift.PrependError("write struct stop error: ", err) } return nil } func (p *DecimalType) writeField1(oprot thrift.TProtocol) (err error) { if err := oprot.WriteFieldBegin("scale", thrift.I32, 1); err != nil { return thrift.PrependError(fmt.Sprintf("%T write field begin error 1:scale: ", p), err) } if err := oprot.WriteI32(p.Scale); err != nil { return thrift.PrependError(fmt.Sprintf("%T.scale (1) field write error: ", p), err) } if err := oprot.WriteFieldEnd(); err != nil { return thrift.PrependError(fmt.Sprintf("%T write field end error 1:scale: ", p), err) } return err } func (p *DecimalType) writeField2(oprot thrift.TProtocol) (err error) { if err := oprot.WriteFieldBegin("precision", thrift.I32, 2); err != nil { return thrift.PrependError(fmt.Sprintf("%T write field begin error 2:precision: ", p), err) } if err := oprot.WriteI32(p.Precision); err != nil { return thrift.PrependError(fmt.Sprintf("%T.precision (2) field write error: ", p), err) } if err := oprot.WriteFieldEnd(); err != nil { return thrift.PrependError(fmt.Sprintf("%T write field end error 2:precision: ", p), err) } return err } func (p *DecimalType) String() string { if p == nil { return "" } return fmt.Sprintf("DecimalType(%+v)", *p) } // Time units for logical types type MilliSeconds struct { } func NewMilliSeconds() *MilliSeconds { return &MilliSeconds{} } func (p *MilliSeconds) Read(iprot thrift.TProtocol) error { if _, err := iprot.ReadStructBegin(); err != nil { return thrift.PrependError(fmt.Sprintf("%T read error: ", p), err) } for { _, fieldTypeId, fieldId, err := iprot.ReadFieldBegin() if err != nil { return thrift.PrependError(fmt.Sprintf("%T field %d read error: ", p, fieldId), err) } if fieldTypeId == thrift.STOP { break } if err := iprot.Skip(fieldTypeId); err != nil { return err } if err := iprot.ReadFieldEnd(); err != nil { return err } } if err := iprot.ReadStructEnd(); err != nil { return thrift.PrependError(fmt.Sprintf("%T read struct end error: ", p), err) } return nil } func (p *MilliSeconds) Write(oprot thrift.TProtocol) error { if err := oprot.WriteStructBegin("MilliSeconds"); err != nil { return thrift.PrependError(fmt.Sprintf("%T write struct begin error: ", p), err) } if p != nil { } if err := oprot.WriteFieldStop(); err != nil { return thrift.PrependError("write field stop error: ", err) } if err := oprot.WriteStructEnd(); err != nil { return thrift.PrependError("write struct stop error: ", err) } return nil } func (p *MilliSeconds) String() string { if p == nil { return "" } return fmt.Sprintf("MilliSeconds(%+v)", *p) } type MicroSeconds struct { } func NewMicroSeconds() *MicroSeconds { return &MicroSeconds{} } func (p *MicroSeconds) Read(iprot thrift.TProtocol) error { if _, err := iprot.ReadStructBegin(); err != nil { return thrift.PrependError(fmt.Sprintf("%T read error: ", p), err) } for { _, fieldTypeId, fieldId, err := iprot.ReadFieldBegin() if err != nil { return thrift.PrependError(fmt.Sprintf("%T field %d read error: ", p, fieldId), err) } if fieldTypeId == thrift.STOP { break } if err := iprot.Skip(fieldTypeId); err != nil { return err } if err := iprot.ReadFieldEnd(); err != nil { return err } } if err := iprot.ReadStructEnd(); err != nil { return thrift.PrependError(fmt.Sprintf("%T read struct end error: ", p), err) } return nil } func (p *MicroSeconds) Write(oprot thrift.TProtocol) error { if err := oprot.WriteStructBegin("MicroSeconds"); err != nil { return thrift.PrependError(fmt.Sprintf("%T write struct begin error: ", p), err) } if p != nil { } if err := oprot.WriteFieldStop(); err != nil { return thrift.PrependError("write field stop error: ", err) } if err := oprot.WriteStructEnd(); err != nil { return thrift.PrependError("write struct stop error: ", err) } return nil } func (p *MicroSeconds) String() string { if p == nil { return "" } return fmt.Sprintf("MicroSeconds(%+v)", *p) } type NanoSeconds struct { } func NewNanoSeconds() *NanoSeconds { return &NanoSeconds{} } func (p *NanoSeconds) Read(iprot thrift.TProtocol) error { if _, err := iprot.ReadStructBegin(); err != nil { return thrift.PrependError(fmt.Sprintf("%T read error: ", p), err) } for { _, fieldTypeId, fieldId, err := iprot.ReadFieldBegin() if err != nil { return thrift.PrependError(fmt.Sprintf("%T field %d read error: ", p, fieldId), err) } if fieldTypeId == thrift.STOP { break } if err := iprot.Skip(fieldTypeId); err != nil { return err } if err := iprot.ReadFieldEnd(); err != nil { return err } } if err := iprot.ReadStructEnd(); err != nil { return thrift.PrependError(fmt.Sprintf("%T read struct end error: ", p), err) } return nil } func (p *NanoSeconds) Write(oprot thrift.TProtocol) error { if err := oprot.WriteStructBegin("NanoSeconds"); err != nil { return thrift.PrependError(fmt.Sprintf("%T write struct begin error: ", p), err) } if p != nil { } if err := oprot.WriteFieldStop(); err != nil { return thrift.PrependError("write field stop error: ", err) } if err := oprot.WriteStructEnd(); err != nil { return thrift.PrependError("write struct stop error: ", err) } return nil } func (p *NanoSeconds) String() string { if p == nil { return "" } return fmt.Sprintf("NanoSeconds(%+v)", *p) } // Attributes: // - MILLIS // - MICROS // - NANOS type TimeUnit struct { MILLIS *MilliSeconds `thrift:"MILLIS,1" db:"MILLIS" json:"MILLIS,omitempty"` MICROS *MicroSeconds `thrift:"MICROS,2" db:"MICROS" json:"MICROS,omitempty"` NANOS *NanoSeconds `thrift:"NANOS,3" db:"NANOS" json:"NANOS,omitempty"` } func NewTimeUnit() *TimeUnit { return &TimeUnit{} } var TimeUnit_MILLIS_DEFAULT *MilliSeconds func (p *TimeUnit) GetMILLIS() *MilliSeconds { if !p.IsSetMILLIS() { return TimeUnit_MILLIS_DEFAULT } return p.MILLIS } var TimeUnit_MICROS_DEFAULT *MicroSeconds func (p *TimeUnit) GetMICROS() *MicroSeconds { if !p.IsSetMICROS() { return TimeUnit_MICROS_DEFAULT } return p.MICROS } var TimeUnit_NANOS_DEFAULT *NanoSeconds func (p *TimeUnit) GetNANOS() *NanoSeconds { if !p.IsSetNANOS() { return TimeUnit_NANOS_DEFAULT } return p.NANOS } func (p *TimeUnit) CountSetFieldsTimeUnit() int { count := 0 if p.IsSetMILLIS() { count++ } if p.IsSetMICROS() { count++ } if p.IsSetNANOS() { count++ } return count } func (p *TimeUnit) IsSetMILLIS() bool { return p.MILLIS != nil } func (p *TimeUnit) IsSetMICROS() bool { return p.MICROS != nil } func (p *TimeUnit) IsSetNANOS() bool { return p.NANOS != nil } func (p *TimeUnit) Read(iprot thrift.TProtocol) error { if _, err := iprot.ReadStructBegin(); err != nil { return thrift.PrependError(fmt.Sprintf("%T read error: ", p), err) } for { _, fieldTypeId, fieldId, err := iprot.ReadFieldBegin() if err != nil { return thrift.PrependError(fmt.Sprintf("%T field %d read error: ", p, fieldId), err) } if fieldTypeId == thrift.STOP { break } switch fieldId { case 1: if err := p.ReadField1(iprot); err != nil { return err } case 2: if err := p.ReadField2(iprot); err != nil { return err } case 3: if err := p.ReadField3(iprot); err != nil { return err } default: if err := iprot.Skip(fieldTypeId); err != nil { return err } } if err := iprot.ReadFieldEnd(); err != nil { return err } } if err := iprot.ReadStructEnd(); err != nil { return thrift.PrependError(fmt.Sprintf("%T read struct end error: ", p), err) } return nil } func (p *TimeUnit) ReadField1(iprot thrift.TProtocol) error { p.MILLIS = &MilliSeconds{} if err := p.MILLIS.Read(iprot); err != nil { return thrift.PrependError(fmt.Sprintf("%T error reading struct: ", p.MILLIS), err) } return nil } func (p *TimeUnit) ReadField2(iprot thrift.TProtocol) error { p.MICROS = &MicroSeconds{} if err := p.MICROS.Read(iprot); err != nil { return thrift.PrependError(fmt.Sprintf("%T error reading struct: ", p.MICROS), err) } return nil } func (p *TimeUnit) ReadField3(iprot thrift.TProtocol) error { p.NANOS = &NanoSeconds{} if err := p.NANOS.Read(iprot); err != nil { return thrift.PrependError(fmt.Sprintf("%T error reading struct: ", p.NANOS), err) } return nil } func (p *TimeUnit) Write(oprot thrift.TProtocol) error { if c := p.CountSetFieldsTimeUnit(); c != 1 { return fmt.Errorf("%T write union: exactly one field must be set (%d set).", p, c) } if err := oprot.WriteStructBegin("TimeUnit"); err != nil { return thrift.PrependError(fmt.Sprintf("%T write struct begin error: ", p), err) } if p != nil { if err := p.writeField1(oprot); err != nil { return err } if err := p.writeField2(oprot); err != nil { return err } if err := p.writeField3(oprot); err != nil { return err } } if err := oprot.WriteFieldStop(); err != nil { return thrift.PrependError("write field stop error: ", err) } if err := oprot.WriteStructEnd(); err != nil { return thrift.PrependError("write struct stop error: ", err) } return nil } func (p *TimeUnit) writeField1(oprot thrift.TProtocol) (err error) { if p.IsSetMILLIS() { if err := oprot.WriteFieldBegin("MILLIS", thrift.STRUCT, 1); err != nil { return thrift.PrependError(fmt.Sprintf("%T write field begin error 1:MILLIS: ", p), err) } if err := p.MILLIS.Write(oprot); err != nil { return thrift.PrependError(fmt.Sprintf("%T error writing struct: ", p.MILLIS), err) } if err := oprot.WriteFieldEnd(); err != nil { return thrift.PrependError(fmt.Sprintf("%T write field end error 1:MILLIS: ", p), err) } } return err } func (p *TimeUnit) writeField2(oprot thrift.TProtocol) (err error) { if p.IsSetMICROS() { if err := oprot.WriteFieldBegin("MICROS", thrift.STRUCT, 2); err != nil { return thrift.PrependError(fmt.Sprintf("%T write field begin error 2:MICROS: ", p), err) } if err := p.MICROS.Write(oprot); err != nil { return thrift.PrependError(fmt.Sprintf("%T error writing struct: ", p.MICROS), err) } if err := oprot.WriteFieldEnd(); err != nil { return thrift.PrependError(fmt.Sprintf("%T write field end error 2:MICROS: ", p), err) } } return err } func (p *TimeUnit) writeField3(oprot thrift.TProtocol) (err error) { if p.IsSetNANOS() { if err := oprot.WriteFieldBegin("NANOS", thrift.STRUCT, 3); err != nil { return thrift.PrependError(fmt.Sprintf("%T write field begin error 3:NANOS: ", p), err) } if err := p.NANOS.Write(oprot); err != nil { return thrift.PrependError(fmt.Sprintf("%T error writing struct: ", p.NANOS), err) } if err := oprot.WriteFieldEnd(); err != nil { return thrift.PrependError(fmt.Sprintf("%T write field end error 3:NANOS: ", p), err) } } return err } func (p *TimeUnit) String() string { if p == nil { return "" } return fmt.Sprintf("TimeUnit(%+v)", *p) } // Timestamp logical type annotation // // Allowed for physical types: INT64 // // Attributes: // - IsAdjustedToUTC // - Unit type TimestampType struct { IsAdjustedToUTC bool `thrift:"isAdjustedToUTC,1,required" db:"isAdjustedToUTC" json:"isAdjustedToUTC"` Unit *TimeUnit `thrift:"unit,2,required" db:"unit" json:"unit"` } func NewTimestampType() *TimestampType { return &TimestampType{} } func (p *TimestampType) GetIsAdjustedToUTC() bool { return p.IsAdjustedToUTC } var TimestampType_Unit_DEFAULT *TimeUnit func (p *TimestampType) GetUnit() *TimeUnit { if !p.IsSetUnit() { return TimestampType_Unit_DEFAULT } return p.Unit } func (p *TimestampType) IsSetUnit() bool { return p.Unit != nil } func (p *TimestampType) Read(iprot thrift.TProtocol) error { if _, err := iprot.ReadStructBegin(); err != nil { return thrift.PrependError(fmt.Sprintf("%T read error: ", p), err) } var issetIsAdjustedToUTC bool = false var issetUnit bool = false for { _, fieldTypeId, fieldId, err := iprot.ReadFieldBegin() if err != nil { return thrift.PrependError(fmt.Sprintf("%T field %d read error: ", p, fieldId), err) } if fieldTypeId == thrift.STOP { break } switch fieldId { case 1: if err := p.ReadField1(iprot); err != nil { return err } issetIsAdjustedToUTC = true case 2: if err := p.ReadField2(iprot); err != nil { return err } issetUnit = true default: if err := iprot.Skip(fieldTypeId); err != nil { return err } } if err := iprot.ReadFieldEnd(); err != nil { return err } } if err := iprot.ReadStructEnd(); err != nil { return thrift.PrependError(fmt.Sprintf("%T read struct end error: ", p), err) } if !issetIsAdjustedToUTC { return thrift.NewTProtocolExceptionWithType(thrift.INVALID_DATA, fmt.Errorf("Required field IsAdjustedToUTC is not set")) } if !issetUnit { return thrift.NewTProtocolExceptionWithType(thrift.INVALID_DATA, fmt.Errorf("Required field Unit is not set")) } return nil } func (p *TimestampType) ReadField1(iprot thrift.TProtocol) error { if v, err := iprot.ReadBool(); err != nil { return thrift.PrependError("error reading field 1: ", err) } else { p.IsAdjustedToUTC = v } return nil } func (p *TimestampType) ReadField2(iprot thrift.TProtocol) error { p.Unit = &TimeUnit{} if err := p.Unit.Read(iprot); err != nil { return thrift.PrependError(fmt.Sprintf("%T error reading struct: ", p.Unit), err) } return nil } func (p *TimestampType) Write(oprot thrift.TProtocol) error { if err := oprot.WriteStructBegin("TimestampType"); err != nil { return thrift.PrependError(fmt.Sprintf("%T write struct begin error: ", p), err) } if p != nil { if err := p.writeField1(oprot); err != nil { return err } if err := p.writeField2(oprot); err != nil { return err } } if err := oprot.WriteFieldStop(); err != nil { return thrift.PrependError("write field stop error: ", err) } if err := oprot.WriteStructEnd(); err != nil { return thrift.PrependError("write struct stop error: ", err) } return nil } func (p *TimestampType) writeField1(oprot thrift.TProtocol) (err error) { if err := oprot.WriteFieldBegin("isAdjustedToUTC", thrift.BOOL, 1); err != nil { return thrift.PrependError(fmt.Sprintf("%T write field begin error 1:isAdjustedToUTC: ", p), err) } if err := oprot.WriteBool(p.IsAdjustedToUTC); err != nil { return thrift.PrependError(fmt.Sprintf("%T.isAdjustedToUTC (1) field write error: ", p), err) } if err := oprot.WriteFieldEnd(); err != nil { return thrift.PrependError(fmt.Sprintf("%T write field end error 1:isAdjustedToUTC: ", p), err) } return err } func (p *TimestampType) writeField2(oprot thrift.TProtocol) (err error) { if err := oprot.WriteFieldBegin("unit", thrift.STRUCT, 2); err != nil { return thrift.PrependError(fmt.Sprintf("%T write field begin error 2:unit: ", p), err) } if err := p.Unit.Write(oprot); err != nil { return thrift.PrependError(fmt.Sprintf("%T error writing struct: ", p.Unit), err) } if err := oprot.WriteFieldEnd(); err != nil { return thrift.PrependError(fmt.Sprintf("%T write field end error 2:unit: ", p), err) } return err } func (p *TimestampType) String() string { if p == nil { return "" } return fmt.Sprintf("TimestampType(%+v)", *p) } // Time logical type annotation // // Allowed for physical types: INT32 (millis), INT64 (micros, nanos) // // Attributes: // - IsAdjustedToUTC // - Unit type TimeType struct { IsAdjustedToUTC bool `thrift:"isAdjustedToUTC,1,required" db:"isAdjustedToUTC" json:"isAdjustedToUTC"` Unit *TimeUnit `thrift:"unit,2,required" db:"unit" json:"unit"` } func NewTimeType() *TimeType { return &TimeType{} } func (p *TimeType) GetIsAdjustedToUTC() bool { return p.IsAdjustedToUTC } var TimeType_Unit_DEFAULT *TimeUnit func (p *TimeType) GetUnit() *TimeUnit { if !p.IsSetUnit() { return TimeType_Unit_DEFAULT } return p.Unit } func (p *TimeType) IsSetUnit() bool { return p.Unit != nil } func (p *TimeType) Read(iprot thrift.TProtocol) error { if _, err := iprot.ReadStructBegin(); err != nil { return thrift.PrependError(fmt.Sprintf("%T read error: ", p), err) } var issetIsAdjustedToUTC bool = false var issetUnit bool = false for { _, fieldTypeId, fieldId, err := iprot.ReadFieldBegin() if err != nil { return thrift.PrependError(fmt.Sprintf("%T field %d read error: ", p, fieldId), err) } if fieldTypeId == thrift.STOP { break } switch fieldId { case 1: if err := p.ReadField1(iprot); err != nil { return err } issetIsAdjustedToUTC = true case 2: if err := p.ReadField2(iprot); err != nil { return err } issetUnit = true default: if err := iprot.Skip(fieldTypeId); err != nil { return err } } if err := iprot.ReadFieldEnd(); err != nil { return err } } if err := iprot.ReadStructEnd(); err != nil { return thrift.PrependError(fmt.Sprintf("%T read struct end error: ", p), err) } if !issetIsAdjustedToUTC { return thrift.NewTProtocolExceptionWithType(thrift.INVALID_DATA, fmt.Errorf("Required field IsAdjustedToUTC is not set")) } if !issetUnit { return thrift.NewTProtocolExceptionWithType(thrift.INVALID_DATA, fmt.Errorf("Required field Unit is not set")) } return nil } func (p *TimeType) ReadField1(iprot thrift.TProtocol) error { if v, err := iprot.ReadBool(); err != nil { return thrift.PrependError("error reading field 1: ", err) } else { p.IsAdjustedToUTC = v } return nil } func (p *TimeType) ReadField2(iprot thrift.TProtocol) error { p.Unit = &TimeUnit{} if err := p.Unit.Read(iprot); err != nil { return thrift.PrependError(fmt.Sprintf("%T error reading struct: ", p.Unit), err) } return nil } func (p *TimeType) Write(oprot thrift.TProtocol) error { if err := oprot.WriteStructBegin("TimeType"); err != nil { return thrift.PrependError(fmt.Sprintf("%T write struct begin error: ", p), err) } if p != nil { if err := p.writeField1(oprot); err != nil { return err } if err := p.writeField2(oprot); err != nil { return err } } if err := oprot.WriteFieldStop(); err != nil { return thrift.PrependError("write field stop error: ", err) } if err := oprot.WriteStructEnd(); err != nil { return thrift.PrependError("write struct stop error: ", err) } return nil } func (p *TimeType) writeField1(oprot thrift.TProtocol) (err error) { if err := oprot.WriteFieldBegin("isAdjustedToUTC", thrift.BOOL, 1); err != nil { return thrift.PrependError(fmt.Sprintf("%T write field begin error 1:isAdjustedToUTC: ", p), err) } if err := oprot.WriteBool(p.IsAdjustedToUTC); err != nil { return thrift.PrependError(fmt.Sprintf("%T.isAdjustedToUTC (1) field write error: ", p), err) } if err := oprot.WriteFieldEnd(); err != nil { return thrift.PrependError(fmt.Sprintf("%T write field end error 1:isAdjustedToUTC: ", p), err) } return err } func (p *TimeType) writeField2(oprot thrift.TProtocol) (err error) { if err := oprot.WriteFieldBegin("unit", thrift.STRUCT, 2); err != nil { return thrift.PrependError(fmt.Sprintf("%T write field begin error 2:unit: ", p), err) } if err := p.Unit.Write(oprot); err != nil { return thrift.PrependError(fmt.Sprintf("%T error writing struct: ", p.Unit), err) } if err := oprot.WriteFieldEnd(); err != nil { return thrift.PrependError(fmt.Sprintf("%T write field end error 2:unit: ", p), err) } return err } func (p *TimeType) String() string { if p == nil { return "" } return fmt.Sprintf("TimeType(%+v)", *p) } // Integer logical type annotation // // bitWidth must be 8, 16, 32, or 64. // // Allowed for physical types: INT32, INT64 // // Attributes: // - BitWidth // - IsSigned type IntType struct { BitWidth int8 `thrift:"bitWidth,1,required" db:"bitWidth" json:"bitWidth"` IsSigned bool `thrift:"isSigned,2,required" db:"isSigned" json:"isSigned"` } func NewIntType() *IntType { return &IntType{} } func (p *IntType) GetBitWidth() int8 { return p.BitWidth } func (p *IntType) GetIsSigned() bool { return p.IsSigned } func (p *IntType) Read(iprot thrift.TProtocol) error { if _, err := iprot.ReadStructBegin(); err != nil { return thrift.PrependError(fmt.Sprintf("%T read error: ", p), err) } var issetBitWidth bool = false var issetIsSigned bool = false for { _, fieldTypeId, fieldId, err := iprot.ReadFieldBegin() if err != nil { return thrift.PrependError(fmt.Sprintf("%T field %d read error: ", p, fieldId), err) } if fieldTypeId == thrift.STOP { break } switch fieldId { case 1: if err := p.ReadField1(iprot); err != nil { return err } issetBitWidth = true case 2: if err := p.ReadField2(iprot); err != nil { return err } issetIsSigned = true default: if err := iprot.Skip(fieldTypeId); err != nil { return err } } if err := iprot.ReadFieldEnd(); err != nil { return err } } if err := iprot.ReadStructEnd(); err != nil { return thrift.PrependError(fmt.Sprintf("%T read struct end error: ", p), err) } if !issetBitWidth { return thrift.NewTProtocolExceptionWithType(thrift.INVALID_DATA, fmt.Errorf("Required field BitWidth is not set")) } if !issetIsSigned { return thrift.NewTProtocolExceptionWithType(thrift.INVALID_DATA, fmt.Errorf("Required field IsSigned is not set")) } return nil } func (p *IntType) ReadField1(iprot thrift.TProtocol) error { if v, err := iprot.ReadByte(); err != nil { return thrift.PrependError("error reading field 1: ", err) } else { temp := v p.BitWidth = temp } return nil } func (p *IntType) ReadField2(iprot thrift.TProtocol) error { if v, err := iprot.ReadBool(); err != nil { return thrift.PrependError("error reading field 2: ", err) } else { p.IsSigned = v } return nil } func (p *IntType) Write(oprot thrift.TProtocol) error { if err := oprot.WriteStructBegin("IntType"); err != nil { return thrift.PrependError(fmt.Sprintf("%T write struct begin error: ", p), err) } if p != nil { if err := p.writeField1(oprot); err != nil { return err } if err := p.writeField2(oprot); err != nil { return err } } if err := oprot.WriteFieldStop(); err != nil { return thrift.PrependError("write field stop error: ", err) } if err := oprot.WriteStructEnd(); err != nil { return thrift.PrependError("write struct stop error: ", err) } return nil } func (p *IntType) writeField1(oprot thrift.TProtocol) (err error) { if err := oprot.WriteFieldBegin("bitWidth", thrift.BYTE, 1); err != nil { return thrift.PrependError(fmt.Sprintf("%T write field begin error 1:bitWidth: ", p), err) } if err := oprot.WriteByte(p.BitWidth); err != nil { return thrift.PrependError(fmt.Sprintf("%T.bitWidth (1) field write error: ", p), err) } if err := oprot.WriteFieldEnd(); err != nil { return thrift.PrependError(fmt.Sprintf("%T write field end error 1:bitWidth: ", p), err) } return err } func (p *IntType) writeField2(oprot thrift.TProtocol) (err error) { if err := oprot.WriteFieldBegin("isSigned", thrift.BOOL, 2); err != nil { return thrift.PrependError(fmt.Sprintf("%T write field begin error 2:isSigned: ", p), err) } if err := oprot.WriteBool(p.IsSigned); err != nil { return thrift.PrependError(fmt.Sprintf("%T.isSigned (2) field write error: ", p), err) } if err := oprot.WriteFieldEnd(); err != nil { return thrift.PrependError(fmt.Sprintf("%T write field end error 2:isSigned: ", p), err) } return err } func (p *IntType) String() string { if p == nil { return "" } return fmt.Sprintf("IntType(%+v)", *p) } // Embedded JSON logical type annotation // // Allowed for physical types: BINARY type JsonType struct { } func NewJsonType() *JsonType { return &JsonType{} } func (p *JsonType) Read(iprot thrift.TProtocol) error { if _, err := iprot.ReadStructBegin(); err != nil { return thrift.PrependError(fmt.Sprintf("%T read error: ", p), err) } for { _, fieldTypeId, fieldId, err := iprot.ReadFieldBegin() if err != nil { return thrift.PrependError(fmt.Sprintf("%T field %d read error: ", p, fieldId), err) } if fieldTypeId == thrift.STOP { break } if err := iprot.Skip(fieldTypeId); err != nil { return err } if err := iprot.ReadFieldEnd(); err != nil { return err } } if err := iprot.ReadStructEnd(); err != nil { return thrift.PrependError(fmt.Sprintf("%T read struct end error: ", p), err) } return nil } func (p *JsonType) Write(oprot thrift.TProtocol) error { if err := oprot.WriteStructBegin("JsonType"); err != nil { return thrift.PrependError(fmt.Sprintf("%T write struct begin error: ", p), err) } if p != nil { } if err := oprot.WriteFieldStop(); err != nil { return thrift.PrependError("write field stop error: ", err) } if err := oprot.WriteStructEnd(); err != nil { return thrift.PrependError("write struct stop error: ", err) } return nil } func (p *JsonType) String() string { if p == nil { return "" } return fmt.Sprintf("JsonType(%+v)", *p) } // Embedded BSON logical type annotation // // Allowed for physical types: BINARY type BsonType struct { } func NewBsonType() *BsonType { return &BsonType{} } func (p *BsonType) Read(iprot thrift.TProtocol) error { if _, err := iprot.ReadStructBegin(); err != nil { return thrift.PrependError(fmt.Sprintf("%T read error: ", p), err) } for { _, fieldTypeId, fieldId, err := iprot.ReadFieldBegin() if err != nil { return thrift.PrependError(fmt.Sprintf("%T field %d read error: ", p, fieldId), err) } if fieldTypeId == thrift.STOP { break } if err := iprot.Skip(fieldTypeId); err != nil { return err } if err := iprot.ReadFieldEnd(); err != nil { return err } } if err := iprot.ReadStructEnd(); err != nil { return thrift.PrependError(fmt.Sprintf("%T read struct end error: ", p), err) } return nil } func (p *BsonType) Write(oprot thrift.TProtocol) error { if err := oprot.WriteStructBegin("BsonType"); err != nil { return thrift.PrependError(fmt.Sprintf("%T write struct begin error: ", p), err) } if p != nil { } if err := oprot.WriteFieldStop(); err != nil { return thrift.PrependError("write field stop error: ", err) } if err := oprot.WriteStructEnd(); err != nil { return thrift.PrependError("write struct stop error: ", err) } return nil } func (p *BsonType) String() string { if p == nil { return "" } return fmt.Sprintf("BsonType(%+v)", *p) } // LogicalType annotations to replace ConvertedType. // // To maintain compatibility, implementations using LogicalType for a // SchemaElement must also set the corresponding ConvertedType from the // following table. // // Attributes: // - STRING // - MAP // - LIST // - ENUM // - DECIMAL // - DATE // - TIME // - TIMESTAMP // - INTEGER // - UNKNOWN // - JSON // - BSON // - UUID type LogicalType struct { STRING *StringType `thrift:"STRING,1" db:"STRING" json:"STRING,omitempty"` MAP *MapType `thrift:"MAP,2" db:"MAP" json:"MAP,omitempty"` LIST *ListType `thrift:"LIST,3" db:"LIST" json:"LIST,omitempty"` ENUM *EnumType `thrift:"ENUM,4" db:"ENUM" json:"ENUM,omitempty"` DECIMAL *DecimalType `thrift:"DECIMAL,5" db:"DECIMAL" json:"DECIMAL,omitempty"` DATE *DateType `thrift:"DATE,6" db:"DATE" json:"DATE,omitempty"` TIME *TimeType `thrift:"TIME,7" db:"TIME" json:"TIME,omitempty"` TIMESTAMP *TimestampType `thrift:"TIMESTAMP,8" db:"TIMESTAMP" json:"TIMESTAMP,omitempty"` // unused field # 9 INTEGER *IntType `thrift:"INTEGER,10" db:"INTEGER" json:"INTEGER,omitempty"` UNKNOWN *NullType `thrift:"UNKNOWN,11" db:"UNKNOWN" json:"UNKNOWN,omitempty"` JSON *JsonType `thrift:"JSON,12" db:"JSON" json:"JSON,omitempty"` BSON *BsonType `thrift:"BSON,13" db:"BSON" json:"BSON,omitempty"` UUID *UUIDType `thrift:"UUID,14" db:"UUID" json:"UUID,omitempty"` } func NewLogicalType() *LogicalType { return &LogicalType{} } var LogicalType_STRING_DEFAULT *StringType func (p *LogicalType) GetSTRING() *StringType { if !p.IsSetSTRING() { return LogicalType_STRING_DEFAULT } return p.STRING } var LogicalType_MAP_DEFAULT *MapType func (p *LogicalType) GetMAP() *MapType { if !p.IsSetMAP() { return LogicalType_MAP_DEFAULT } return p.MAP } var LogicalType_LIST_DEFAULT *ListType func (p *LogicalType) GetLIST() *ListType { if !p.IsSetLIST() { return LogicalType_LIST_DEFAULT } return p.LIST } var LogicalType_ENUM_DEFAULT *EnumType func (p *LogicalType) GetENUM() *EnumType { if !p.IsSetENUM() { return LogicalType_ENUM_DEFAULT } return p.ENUM } var LogicalType_DECIMAL_DEFAULT *DecimalType func (p *LogicalType) GetDECIMAL() *DecimalType { if !p.IsSetDECIMAL() { return LogicalType_DECIMAL_DEFAULT } return p.DECIMAL } var LogicalType_DATE_DEFAULT *DateType func (p *LogicalType) GetDATE() *DateType { if !p.IsSetDATE() { return LogicalType_DATE_DEFAULT } return p.DATE } var LogicalType_TIME_DEFAULT *TimeType func (p *LogicalType) GetTIME() *TimeType { if !p.IsSetTIME() { return LogicalType_TIME_DEFAULT } return p.TIME } var LogicalType_TIMESTAMP_DEFAULT *TimestampType func (p *LogicalType) GetTIMESTAMP() *TimestampType { if !p.IsSetTIMESTAMP() { return LogicalType_TIMESTAMP_DEFAULT } return p.TIMESTAMP } var LogicalType_INTEGER_DEFAULT *IntType func (p *LogicalType) GetINTEGER() *IntType { if !p.IsSetINTEGER() { return LogicalType_INTEGER_DEFAULT } return p.INTEGER } var LogicalType_UNKNOWN_DEFAULT *NullType func (p *LogicalType) GetUNKNOWN() *NullType { if !p.IsSetUNKNOWN() { return LogicalType_UNKNOWN_DEFAULT } return p.UNKNOWN } var LogicalType_JSON_DEFAULT *JsonType func (p *LogicalType) GetJSON() *JsonType { if !p.IsSetJSON() { return LogicalType_JSON_DEFAULT } return p.JSON } var LogicalType_BSON_DEFAULT *BsonType func (p *LogicalType) GetBSON() *BsonType { if !p.IsSetBSON() { return LogicalType_BSON_DEFAULT } return p.BSON } var LogicalType_UUID_DEFAULT *UUIDType func (p *LogicalType) GetUUID() *UUIDType { if !p.IsSetUUID() { return LogicalType_UUID_DEFAULT } return p.UUID } func (p *LogicalType) CountSetFieldsLogicalType() int { count := 0 if p.IsSetSTRING() { count++ } if p.IsSetMAP() { count++ } if p.IsSetLIST() { count++ } if p.IsSetENUM() { count++ } if p.IsSetDECIMAL() { count++ } if p.IsSetDATE() { count++ } if p.IsSetTIME() { count++ } if p.IsSetTIMESTAMP() { count++ } if p.IsSetINTEGER() { count++ } if p.IsSetUNKNOWN() { count++ } if p.IsSetJSON() { count++ } if p.IsSetBSON() { count++ } if p.IsSetUUID() { count++ } return count } func (p *LogicalType) IsSetSTRING() bool { return p.STRING != nil } func (p *LogicalType) IsSetMAP() bool { return p.MAP != nil } func (p *LogicalType) IsSetLIST() bool { return p.LIST != nil } func (p *LogicalType) IsSetENUM() bool { return p.ENUM != nil } func (p *LogicalType) IsSetDECIMAL() bool { return p.DECIMAL != nil } func (p *LogicalType) IsSetDATE() bool { return p.DATE != nil } func (p *LogicalType) IsSetTIME() bool { return p.TIME != nil } func (p *LogicalType) IsSetTIMESTAMP() bool { return p.TIMESTAMP != nil } func (p *LogicalType) IsSetINTEGER() bool { return p.INTEGER != nil } func (p *LogicalType) IsSetUNKNOWN() bool { return p.UNKNOWN != nil } func (p *LogicalType) IsSetJSON() bool { return p.JSON != nil } func (p *LogicalType) IsSetBSON() bool { return p.BSON != nil } func (p *LogicalType) IsSetUUID() bool { return p.UUID != nil } func (p *LogicalType) Read(iprot thrift.TProtocol) error { if _, err := iprot.ReadStructBegin(); err != nil { return thrift.PrependError(fmt.Sprintf("%T read error: ", p), err) } for { _, fieldTypeId, fieldId, err := iprot.ReadFieldBegin() if err != nil { return thrift.PrependError(fmt.Sprintf("%T field %d read error: ", p, fieldId), err) } if fieldTypeId == thrift.STOP { break } switch fieldId { case 1: if err := p.ReadField1(iprot); err != nil { return err } case 2: if err := p.ReadField2(iprot); err != nil { return err } case 3: if err := p.ReadField3(iprot); err != nil { return err } case 4: if err := p.ReadField4(iprot); err != nil { return err } case 5: if err := p.ReadField5(iprot); err != nil { return err } case 6: if err := p.ReadField6(iprot); err != nil { return err } case 7: if err := p.ReadField7(iprot); err != nil { return err } case 8: if err := p.ReadField8(iprot); err != nil { return err } case 10: if err := p.ReadField10(iprot); err != nil { return err } case 11: if err := p.ReadField11(iprot); err != nil { return err } case 12: if err := p.ReadField12(iprot); err != nil { return err } case 13: if err := p.ReadField13(iprot); err != nil { return err } case 14: if err := p.ReadField14(iprot); err != nil { return err } default: if err := iprot.Skip(fieldTypeId); err != nil { return err } } if err := iprot.ReadFieldEnd(); err != nil { return err } } if err := iprot.ReadStructEnd(); err != nil { return thrift.PrependError(fmt.Sprintf("%T read struct end error: ", p), err) } return nil } func (p *LogicalType) ReadField1(iprot thrift.TProtocol) error { p.STRING = &StringType{} if err := p.STRING.Read(iprot); err != nil { return thrift.PrependError(fmt.Sprintf("%T error reading struct: ", p.STRING), err) } return nil } func (p *LogicalType) ReadField2(iprot thrift.TProtocol) error { p.MAP = &MapType{} if err := p.MAP.Read(iprot); err != nil { return thrift.PrependError(fmt.Sprintf("%T error reading struct: ", p.MAP), err) } return nil } func (p *LogicalType) ReadField3(iprot thrift.TProtocol) error { p.LIST = &ListType{} if err := p.LIST.Read(iprot); err != nil { return thrift.PrependError(fmt.Sprintf("%T error reading struct: ", p.LIST), err) } return nil } func (p *LogicalType) ReadField4(iprot thrift.TProtocol) error { p.ENUM = &EnumType{} if err := p.ENUM.Read(iprot); err != nil { return thrift.PrependError(fmt.Sprintf("%T error reading struct: ", p.ENUM), err) } return nil } func (p *LogicalType) ReadField5(iprot thrift.TProtocol) error { p.DECIMAL = &DecimalType{} if err := p.DECIMAL.Read(iprot); err != nil { return thrift.PrependError(fmt.Sprintf("%T error reading struct: ", p.DECIMAL), err) } return nil } func (p *LogicalType) ReadField6(iprot thrift.TProtocol) error { p.DATE = &DateType{} if err := p.DATE.Read(iprot); err != nil { return thrift.PrependError(fmt.Sprintf("%T error reading struct: ", p.DATE), err) } return nil } func (p *LogicalType) ReadField7(iprot thrift.TProtocol) error { p.TIME = &TimeType{} if err := p.TIME.Read(iprot); err != nil { return thrift.PrependError(fmt.Sprintf("%T error reading struct: ", p.TIME), err) } return nil } func (p *LogicalType) ReadField8(iprot thrift.TProtocol) error { p.TIMESTAMP = &TimestampType{} if err := p.TIMESTAMP.Read(iprot); err != nil { return thrift.PrependError(fmt.Sprintf("%T error reading struct: ", p.TIMESTAMP), err) } return nil } func (p *LogicalType) ReadField10(iprot thrift.TProtocol) error { p.INTEGER = &IntType{} if err := p.INTEGER.Read(iprot); err != nil { return thrift.PrependError(fmt.Sprintf("%T error reading struct: ", p.INTEGER), err) } return nil } func (p *LogicalType) ReadField11(iprot thrift.TProtocol) error { p.UNKNOWN = &NullType{} if err := p.UNKNOWN.Read(iprot); err != nil { return thrift.PrependError(fmt.Sprintf("%T error reading struct: ", p.UNKNOWN), err) } return nil } func (p *LogicalType) ReadField12(iprot thrift.TProtocol) error { p.JSON = &JsonType{} if err := p.JSON.Read(iprot); err != nil { return thrift.PrependError(fmt.Sprintf("%T error reading struct: ", p.JSON), err) } return nil } func (p *LogicalType) ReadField13(iprot thrift.TProtocol) error { p.BSON = &BsonType{} if err := p.BSON.Read(iprot); err != nil { return thrift.PrependError(fmt.Sprintf("%T error reading struct: ", p.BSON), err) } return nil } func (p *LogicalType) ReadField14(iprot thrift.TProtocol) error { p.UUID = &UUIDType{} if err := p.UUID.Read(iprot); err != nil { return thrift.PrependError(fmt.Sprintf("%T error reading struct: ", p.UUID), err) } return nil } func (p *LogicalType) Write(oprot thrift.TProtocol) error { if c := p.CountSetFieldsLogicalType(); c != 1 { return fmt.Errorf("%T write union: exactly one field must be set (%d set).", p, c) } if err := oprot.WriteStructBegin("LogicalType"); err != nil { return thrift.PrependError(fmt.Sprintf("%T write struct begin error: ", p), err) } if p != nil { if err := p.writeField1(oprot); err != nil { return err } if err := p.writeField2(oprot); err != nil { return err } if err := p.writeField3(oprot); err != nil { return err } if err := p.writeField4(oprot); err != nil { return err } if err := p.writeField5(oprot); err != nil { return err } if err := p.writeField6(oprot); err != nil { return err } if err := p.writeField7(oprot); err != nil { return err } if err := p.writeField8(oprot); err != nil { return err } if err := p.writeField10(oprot); err != nil { return err } if err := p.writeField11(oprot); err != nil { return err } if err := p.writeField12(oprot); err != nil { return err } if err := p.writeField13(oprot); err != nil { return err } if err := p.writeField14(oprot); err != nil { return err } } if err := oprot.WriteFieldStop(); err != nil { return thrift.PrependError("write field stop error: ", err) } if err := oprot.WriteStructEnd(); err != nil { return thrift.PrependError("write struct stop error: ", err) } return nil } func (p *LogicalType) writeField1(oprot thrift.TProtocol) (err error) { if p.IsSetSTRING() { if err := oprot.WriteFieldBegin("STRING", thrift.STRUCT, 1); err != nil { return thrift.PrependError(fmt.Sprintf("%T write field begin error 1:STRING: ", p), err) } if err := p.STRING.Write(oprot); err != nil { return thrift.PrependError(fmt.Sprintf("%T error writing struct: ", p.STRING), err) } if err := oprot.WriteFieldEnd(); err != nil { return thrift.PrependError(fmt.Sprintf("%T write field end error 1:STRING: ", p), err) } } return err } func (p *LogicalType) writeField2(oprot thrift.TProtocol) (err error) { if p.IsSetMAP() { if err := oprot.WriteFieldBegin("MAP", thrift.STRUCT, 2); err != nil { return thrift.PrependError(fmt.Sprintf("%T write field begin error 2:MAP: ", p), err) } if err := p.MAP.Write(oprot); err != nil { return thrift.PrependError(fmt.Sprintf("%T error writing struct: ", p.MAP), err) } if err := oprot.WriteFieldEnd(); err != nil { return thrift.PrependError(fmt.Sprintf("%T write field end error 2:MAP: ", p), err) } } return err } func (p *LogicalType) writeField3(oprot thrift.TProtocol) (err error) { if p.IsSetLIST() { if err := oprot.WriteFieldBegin("LIST", thrift.STRUCT, 3); err != nil { return thrift.PrependError(fmt.Sprintf("%T write field begin error 3:LIST: ", p), err) } if err := p.LIST.Write(oprot); err != nil { return thrift.PrependError(fmt.Sprintf("%T error writing struct: ", p.LIST), err) } if err := oprot.WriteFieldEnd(); err != nil { return thrift.PrependError(fmt.Sprintf("%T write field end error 3:LIST: ", p), err) } } return err } func (p *LogicalType) writeField4(oprot thrift.TProtocol) (err error) { if p.IsSetENUM() { if err := oprot.WriteFieldBegin("ENUM", thrift.STRUCT, 4); err != nil { return thrift.PrependError(fmt.Sprintf("%T write field begin error 4:ENUM: ", p), err) } if err := p.ENUM.Write(oprot); err != nil { return thrift.PrependError(fmt.Sprintf("%T error writing struct: ", p.ENUM), err) } if err := oprot.WriteFieldEnd(); err != nil { return thrift.PrependError(fmt.Sprintf("%T write field end error 4:ENUM: ", p), err) } } return err } func (p *LogicalType) writeField5(oprot thrift.TProtocol) (err error) { if p.IsSetDECIMAL() { if err := oprot.WriteFieldBegin("DECIMAL", thrift.STRUCT, 5); err != nil { return thrift.PrependError(fmt.Sprintf("%T write field begin error 5:DECIMAL: ", p), err) } if err := p.DECIMAL.Write(oprot); err != nil { return thrift.PrependError(fmt.Sprintf("%T error writing struct: ", p.DECIMAL), err) } if err := oprot.WriteFieldEnd(); err != nil { return thrift.PrependError(fmt.Sprintf("%T write field end error 5:DECIMAL: ", p), err) } } return err } func (p *LogicalType) writeField6(oprot thrift.TProtocol) (err error) { if p.IsSetDATE() { if err := oprot.WriteFieldBegin("DATE", thrift.STRUCT, 6); err != nil { return thrift.PrependError(fmt.Sprintf("%T write field begin error 6:DATE: ", p), err) } if err := p.DATE.Write(oprot); err != nil { return thrift.PrependError(fmt.Sprintf("%T error writing struct: ", p.DATE), err) } if err := oprot.WriteFieldEnd(); err != nil { return thrift.PrependError(fmt.Sprintf("%T write field end error 6:DATE: ", p), err) } } return err } func (p *LogicalType) writeField7(oprot thrift.TProtocol) (err error) { if p.IsSetTIME() { if err := oprot.WriteFieldBegin("TIME", thrift.STRUCT, 7); err != nil { return thrift.PrependError(fmt.Sprintf("%T write field begin error 7:TIME: ", p), err) } if err := p.TIME.Write(oprot); err != nil { return thrift.PrependError(fmt.Sprintf("%T error writing struct: ", p.TIME), err) } if err := oprot.WriteFieldEnd(); err != nil { return thrift.PrependError(fmt.Sprintf("%T write field end error 7:TIME: ", p), err) } } return err } func (p *LogicalType) writeField8(oprot thrift.TProtocol) (err error) { if p.IsSetTIMESTAMP() { if err := oprot.WriteFieldBegin("TIMESTAMP", thrift.STRUCT, 8); err != nil { return thrift.PrependError(fmt.Sprintf("%T write field begin error 8:TIMESTAMP: ", p), err) } if err := p.TIMESTAMP.Write(oprot); err != nil { return thrift.PrependError(fmt.Sprintf("%T error writing struct: ", p.TIMESTAMP), err) } if err := oprot.WriteFieldEnd(); err != nil { return thrift.PrependError(fmt.Sprintf("%T write field end error 8:TIMESTAMP: ", p), err) } } return err } func (p *LogicalType) writeField10(oprot thrift.TProtocol) (err error) { if p.IsSetINTEGER() { if err := oprot.WriteFieldBegin("INTEGER", thrift.STRUCT, 10); err != nil { return thrift.PrependError(fmt.Sprintf("%T write field begin error 10:INTEGER: ", p), err) } if err := p.INTEGER.Write(oprot); err != nil { return thrift.PrependError(fmt.Sprintf("%T error writing struct: ", p.INTEGER), err) } if err := oprot.WriteFieldEnd(); err != nil { return thrift.PrependError(fmt.Sprintf("%T write field end error 10:INTEGER: ", p), err) } } return err } func (p *LogicalType) writeField11(oprot thrift.TProtocol) (err error) { if p.IsSetUNKNOWN() { if err := oprot.WriteFieldBegin("UNKNOWN", thrift.STRUCT, 11); err != nil { return thrift.PrependError(fmt.Sprintf("%T write field begin error 11:UNKNOWN: ", p), err) } if err := p.UNKNOWN.Write(oprot); err != nil { return thrift.PrependError(fmt.Sprintf("%T error writing struct: ", p.UNKNOWN), err) } if err := oprot.WriteFieldEnd(); err != nil { return thrift.PrependError(fmt.Sprintf("%T write field end error 11:UNKNOWN: ", p), err) } } return err } func (p *LogicalType) writeField12(oprot thrift.TProtocol) (err error) { if p.IsSetJSON() { if err := oprot.WriteFieldBegin("JSON", thrift.STRUCT, 12); err != nil { return thrift.PrependError(fmt.Sprintf("%T write field begin error 12:JSON: ", p), err) } if err := p.JSON.Write(oprot); err != nil { return thrift.PrependError(fmt.Sprintf("%T error writing struct: ", p.JSON), err) } if err := oprot.WriteFieldEnd(); err != nil { return thrift.PrependError(fmt.Sprintf("%T write field end error 12:JSON: ", p), err) } } return err } func (p *LogicalType) writeField13(oprot thrift.TProtocol) (err error) { if p.IsSetBSON() { if err := oprot.WriteFieldBegin("BSON", thrift.STRUCT, 13); err != nil { return thrift.PrependError(fmt.Sprintf("%T write field begin error 13:BSON: ", p), err) } if err := p.BSON.Write(oprot); err != nil { return thrift.PrependError(fmt.Sprintf("%T error writing struct: ", p.BSON), err) } if err := oprot.WriteFieldEnd(); err != nil { return thrift.PrependError(fmt.Sprintf("%T write field end error 13:BSON: ", p), err) } } return err } func (p *LogicalType) writeField14(oprot thrift.TProtocol) (err error) { if p.IsSetUUID() { if err := oprot.WriteFieldBegin("UUID", thrift.STRUCT, 14); err != nil { return thrift.PrependError(fmt.Sprintf("%T write field begin error 14:UUID: ", p), err) } if err := p.UUID.Write(oprot); err != nil { return thrift.PrependError(fmt.Sprintf("%T error writing struct: ", p.UUID), err) } if err := oprot.WriteFieldEnd(); err != nil { return thrift.PrependError(fmt.Sprintf("%T write field end error 14:UUID: ", p), err) } } return err } func (p *LogicalType) String() string { if p == nil { return "" } return fmt.Sprintf("LogicalType(%+v)", *p) } // Represents a element inside a schema definition. // - if it is a group (inner node) then type is undefined and num_children is defined // - if it is a primitive type (leaf) then type is defined and num_children is undefined // the nodes are listed in depth first traversal order. // // Attributes: // - Type: Data type for this field. Not set if the current element is a non-leaf node // - TypeLength: If type is FIXED_LEN_BYTE_ARRAY, this is the byte length of the vales. // Otherwise, if specified, this is the maximum bit length to store any of the values. // (e.g. a low cardinality INT col could have this set to 3). Note that this is // in the schema, and therefore fixed for the entire file. // - RepetitionType: repetition of the field. The root of the schema does not have a repetition_type. // All other nodes must have one // - Name: Name of the field in the schema // - NumChildren: Nested fields. Since thrift does not support nested fields, // the nesting is flattened to a single list by a depth-first traversal. // The children count is used to construct the nested relationship. // This field is not set when the element is a primitive type // - ConvertedType: When the schema is the result of a conversion from another model // Used to record the original type to help with cross conversion. // - Scale: Used when this column contains decimal data. // See the DECIMAL converted type for more details. // - Precision // - FieldID: When the original schema supports field ids, this will save the // original field id in the parquet schema // - LogicalType: The logical type of this SchemaElement // // LogicalType replaces ConvertedType, but ConvertedType is still required // for some logical types to ensure forward-compatibility in format v1. type SchemaElement struct { Type *Type `thrift:"type,1" db:"type" json:"type,omitempty"` TypeLength *int32 `thrift:"type_length,2" db:"type_length" json:"type_length,omitempty"` RepetitionType *FieldRepetitionType `thrift:"repetition_type,3" db:"repetition_type" json:"repetition_type,omitempty"` Name string `thrift:"name,4,required" db:"name" json:"name"` NumChildren *int32 `thrift:"num_children,5" db:"num_children" json:"num_children,omitempty"` ConvertedType *ConvertedType `thrift:"converted_type,6" db:"converted_type" json:"converted_type,omitempty"` Scale *int32 `thrift:"scale,7" db:"scale" json:"scale,omitempty"` Precision *int32 `thrift:"precision,8" db:"precision" json:"precision,omitempty"` FieldID *int32 `thrift:"field_id,9" db:"field_id" json:"field_id,omitempty"` LogicalType *LogicalType `thrift:"logicalType,10" db:"logicalType" json:"logicalType,omitempty"` } func NewSchemaElement() *SchemaElement { return &SchemaElement{} } var SchemaElement_Type_DEFAULT Type func (p *SchemaElement) GetType() Type { if !p.IsSetType() { return SchemaElement_Type_DEFAULT } return *p.Type } var SchemaElement_TypeLength_DEFAULT int32 func (p *SchemaElement) GetTypeLength() int32 { if !p.IsSetTypeLength() { return SchemaElement_TypeLength_DEFAULT } return *p.TypeLength } var SchemaElement_RepetitionType_DEFAULT FieldRepetitionType func (p *SchemaElement) GetRepetitionType() FieldRepetitionType { if !p.IsSetRepetitionType() { return SchemaElement_RepetitionType_DEFAULT } return *p.RepetitionType } func (p *SchemaElement) GetName() string { return p.Name } var SchemaElement_NumChildren_DEFAULT int32 func (p *SchemaElement) GetNumChildren() int32 { if !p.IsSetNumChildren() { return SchemaElement_NumChildren_DEFAULT } return *p.NumChildren } var SchemaElement_ConvertedType_DEFAULT ConvertedType func (p *SchemaElement) GetConvertedType() ConvertedType { if !p.IsSetConvertedType() { return SchemaElement_ConvertedType_DEFAULT } return *p.ConvertedType } var SchemaElement_Scale_DEFAULT int32 func (p *SchemaElement) GetScale() int32 { if !p.IsSetScale() { return SchemaElement_Scale_DEFAULT } return *p.Scale } var SchemaElement_Precision_DEFAULT int32 func (p *SchemaElement) GetPrecision() int32 { if !p.IsSetPrecision() { return SchemaElement_Precision_DEFAULT } return *p.Precision } var SchemaElement_FieldID_DEFAULT int32 func (p *SchemaElement) GetFieldID() int32 { if !p.IsSetFieldID() { return SchemaElement_FieldID_DEFAULT } return *p.FieldID } var SchemaElement_LogicalType_DEFAULT *LogicalType func (p *SchemaElement) GetLogicalType() *LogicalType { if !p.IsSetLogicalType() { return SchemaElement_LogicalType_DEFAULT } return p.LogicalType } func (p *SchemaElement) IsSetType() bool { return p.Type != nil } func (p *SchemaElement) IsSetTypeLength() bool { return p.TypeLength != nil } func (p *SchemaElement) IsSetRepetitionType() bool { return p.RepetitionType != nil } func (p *SchemaElement) IsSetNumChildren() bool { return p.NumChildren != nil } func (p *SchemaElement) IsSetConvertedType() bool { return p.ConvertedType != nil } func (p *SchemaElement) IsSetScale() bool { return p.Scale != nil } func (p *SchemaElement) IsSetPrecision() bool { return p.Precision != nil } func (p *SchemaElement) IsSetFieldID() bool { return p.FieldID != nil } func (p *SchemaElement) IsSetLogicalType() bool { return p.LogicalType != nil } func (p *SchemaElement) Read(iprot thrift.TProtocol) error { if _, err := iprot.ReadStructBegin(); err != nil { return thrift.PrependError(fmt.Sprintf("%T read error: ", p), err) } var issetName bool = false for { _, fieldTypeId, fieldId, err := iprot.ReadFieldBegin() if err != nil { return thrift.PrependError(fmt.Sprintf("%T field %d read error: ", p, fieldId), err) } if fieldTypeId == thrift.STOP { break } switch fieldId { case 1: if err := p.ReadField1(iprot); err != nil { return err } case 2: if err := p.ReadField2(iprot); err != nil { return err } case 3: if err := p.ReadField3(iprot); err != nil { return err } case 4: if err := p.ReadField4(iprot); err != nil { return err } issetName = true case 5: if err := p.ReadField5(iprot); err != nil { return err } case 6: if err := p.ReadField6(iprot); err != nil { return err } case 7: if err := p.ReadField7(iprot); err != nil { return err } case 8: if err := p.ReadField8(iprot); err != nil { return err } case 9: if err := p.ReadField9(iprot); err != nil { return err } case 10: if err := p.ReadField10(iprot); err != nil { return err } default: if err := iprot.Skip(fieldTypeId); err != nil { return err } } if err := iprot.ReadFieldEnd(); err != nil { return err } } if err := iprot.ReadStructEnd(); err != nil { return thrift.PrependError(fmt.Sprintf("%T read struct end error: ", p), err) } if !issetName { return thrift.NewTProtocolExceptionWithType(thrift.INVALID_DATA, fmt.Errorf("Required field Name is not set")) } return nil } func (p *SchemaElement) ReadField1(iprot thrift.TProtocol) error { if v, err := iprot.ReadI32(); err != nil { return thrift.PrependError("error reading field 1: ", err) } else { temp := Type(v) p.Type = &temp } return nil } func (p *SchemaElement) ReadField2(iprot thrift.TProtocol) error { if v, err := iprot.ReadI32(); err != nil { return thrift.PrependError("error reading field 2: ", err) } else { p.TypeLength = &v } return nil } func (p *SchemaElement) ReadField3(iprot thrift.TProtocol) error { if v, err := iprot.ReadI32(); err != nil { return thrift.PrependError("error reading field 3: ", err) } else { temp := FieldRepetitionType(v) p.RepetitionType = &temp } return nil } func (p *SchemaElement) ReadField4(iprot thrift.TProtocol) error { if v, err := iprot.ReadString(); err != nil { return thrift.PrependError("error reading field 4: ", err) } else { p.Name = v } return nil } func (p *SchemaElement) ReadField5(iprot thrift.TProtocol) error { if v, err := iprot.ReadI32(); err != nil { return thrift.PrependError("error reading field 5: ", err) } else { p.NumChildren = &v } return nil } func (p *SchemaElement) ReadField6(iprot thrift.TProtocol) error { if v, err := iprot.ReadI32(); err != nil { return thrift.PrependError("error reading field 6: ", err) } else { temp := ConvertedType(v) p.ConvertedType = &temp } return nil } func (p *SchemaElement) ReadField7(iprot thrift.TProtocol) error { if v, err := iprot.ReadI32(); err != nil { return thrift.PrependError("error reading field 7: ", err) } else { p.Scale = &v } return nil } func (p *SchemaElement) ReadField8(iprot thrift.TProtocol) error { if v, err := iprot.ReadI32(); err != nil { return thrift.PrependError("error reading field 8: ", err) } else { p.Precision = &v } return nil } func (p *SchemaElement) ReadField9(iprot thrift.TProtocol) error { if v, err := iprot.ReadI32(); err != nil { return thrift.PrependError("error reading field 9: ", err) } else { p.FieldID = &v } return nil } func (p *SchemaElement) ReadField10(iprot thrift.TProtocol) error { p.LogicalType = &LogicalType{} if err := p.LogicalType.Read(iprot); err != nil { return thrift.PrependError(fmt.Sprintf("%T error reading struct: ", p.LogicalType), err) } return nil } func (p *SchemaElement) Write(oprot thrift.TProtocol) error { if err := oprot.WriteStructBegin("SchemaElement"); err != nil { return thrift.PrependError(fmt.Sprintf("%T write struct begin error: ", p), err) } if p != nil { if err := p.writeField1(oprot); err != nil { return err } if err := p.writeField2(oprot); err != nil { return err } if err := p.writeField3(oprot); err != nil { return err } if err := p.writeField4(oprot); err != nil { return err } if err := p.writeField5(oprot); err != nil { return err } if err := p.writeField6(oprot); err != nil { return err } if err := p.writeField7(oprot); err != nil { return err } if err := p.writeField8(oprot); err != nil { return err } if err := p.writeField9(oprot); err != nil { return err } if err := p.writeField10(oprot); err != nil { return err } } if err := oprot.WriteFieldStop(); err != nil { return thrift.PrependError("write field stop error: ", err) } if err := oprot.WriteStructEnd(); err != nil { return thrift.PrependError("write struct stop error: ", err) } return nil } func (p *SchemaElement) writeField1(oprot thrift.TProtocol) (err error) { if p.IsSetType() { if err := oprot.WriteFieldBegin("type", thrift.I32, 1); err != nil { return thrift.PrependError(fmt.Sprintf("%T write field begin error 1:type: ", p), err) } if err := oprot.WriteI32(int32(*p.Type)); err != nil { return thrift.PrependError(fmt.Sprintf("%T.type (1) field write error: ", p), err) } if err := oprot.WriteFieldEnd(); err != nil { return thrift.PrependError(fmt.Sprintf("%T write field end error 1:type: ", p), err) } } return err } func (p *SchemaElement) writeField2(oprot thrift.TProtocol) (err error) { if p.IsSetTypeLength() { if err := oprot.WriteFieldBegin("type_length", thrift.I32, 2); err != nil { return thrift.PrependError(fmt.Sprintf("%T write field begin error 2:type_length: ", p), err) } if err := oprot.WriteI32(*p.TypeLength); err != nil { return thrift.PrependError(fmt.Sprintf("%T.type_length (2) field write error: ", p), err) } if err := oprot.WriteFieldEnd(); err != nil { return thrift.PrependError(fmt.Sprintf("%T write field end error 2:type_length: ", p), err) } } return err } func (p *SchemaElement) writeField3(oprot thrift.TProtocol) (err error) { if p.IsSetRepetitionType() { if err := oprot.WriteFieldBegin("repetition_type", thrift.I32, 3); err != nil { return thrift.PrependError(fmt.Sprintf("%T write field begin error 3:repetition_type: ", p), err) } if err := oprot.WriteI32(int32(*p.RepetitionType)); err != nil { return thrift.PrependError(fmt.Sprintf("%T.repetition_type (3) field write error: ", p), err) } if err := oprot.WriteFieldEnd(); err != nil { return thrift.PrependError(fmt.Sprintf("%T write field end error 3:repetition_type: ", p), err) } } return err } func (p *SchemaElement) writeField4(oprot thrift.TProtocol) (err error) { if err := oprot.WriteFieldBegin("name", thrift.STRING, 4); err != nil { return thrift.PrependError(fmt.Sprintf("%T write field begin error 4:name: ", p), err) } if err := oprot.WriteString(string(p.Name)); err != nil { return thrift.PrependError(fmt.Sprintf("%T.name (4) field write error: ", p), err) } if err := oprot.WriteFieldEnd(); err != nil { return thrift.PrependError(fmt.Sprintf("%T write field end error 4:name: ", p), err) } return err } func (p *SchemaElement) writeField5(oprot thrift.TProtocol) (err error) { if p.IsSetNumChildren() { if err := oprot.WriteFieldBegin("num_children", thrift.I32, 5); err != nil { return thrift.PrependError(fmt.Sprintf("%T write field begin error 5:num_children: ", p), err) } if err := oprot.WriteI32(*p.NumChildren); err != nil { return thrift.PrependError(fmt.Sprintf("%T.num_children (5) field write error: ", p), err) } if err := oprot.WriteFieldEnd(); err != nil { return thrift.PrependError(fmt.Sprintf("%T write field end error 5:num_children: ", p), err) } } return err } func (p *SchemaElement) writeField6(oprot thrift.TProtocol) (err error) { if p.IsSetConvertedType() { if err := oprot.WriteFieldBegin("converted_type", thrift.I32, 6); err != nil { return thrift.PrependError(fmt.Sprintf("%T write field begin error 6:converted_type: ", p), err) } if err := oprot.WriteI32(int32(*p.ConvertedType)); err != nil { return thrift.PrependError(fmt.Sprintf("%T.converted_type (6) field write error: ", p), err) } if err := oprot.WriteFieldEnd(); err != nil { return thrift.PrependError(fmt.Sprintf("%T write field end error 6:converted_type: ", p), err) } } return err } func (p *SchemaElement) writeField7(oprot thrift.TProtocol) (err error) { if p.IsSetScale() { if err := oprot.WriteFieldBegin("scale", thrift.I32, 7); err != nil { return thrift.PrependError(fmt.Sprintf("%T write field begin error 7:scale: ", p), err) } if err := oprot.WriteI32(*p.Scale); err != nil { return thrift.PrependError(fmt.Sprintf("%T.scale (7) field write error: ", p), err) } if err := oprot.WriteFieldEnd(); err != nil { return thrift.PrependError(fmt.Sprintf("%T write field end error 7:scale: ", p), err) } } return err } func (p *SchemaElement) writeField8(oprot thrift.TProtocol) (err error) { if p.IsSetPrecision() { if err := oprot.WriteFieldBegin("precision", thrift.I32, 8); err != nil { return thrift.PrependError(fmt.Sprintf("%T write field begin error 8:precision: ", p), err) } if err := oprot.WriteI32(*p.Precision); err != nil { return thrift.PrependError(fmt.Sprintf("%T.precision (8) field write error: ", p), err) } if err := oprot.WriteFieldEnd(); err != nil { return thrift.PrependError(fmt.Sprintf("%T write field end error 8:precision: ", p), err) } } return err } func (p *SchemaElement) writeField9(oprot thrift.TProtocol) (err error) { if p.IsSetFieldID() { if err := oprot.WriteFieldBegin("field_id", thrift.I32, 9); err != nil { return thrift.PrependError(fmt.Sprintf("%T write field begin error 9:field_id: ", p), err) } if err := oprot.WriteI32(*p.FieldID); err != nil { return thrift.PrependError(fmt.Sprintf("%T.field_id (9) field write error: ", p), err) } if err := oprot.WriteFieldEnd(); err != nil { return thrift.PrependError(fmt.Sprintf("%T write field end error 9:field_id: ", p), err) } } return err } func (p *SchemaElement) writeField10(oprot thrift.TProtocol) (err error) { if p.IsSetLogicalType() { if err := oprot.WriteFieldBegin("logicalType", thrift.STRUCT, 10); err != nil { return thrift.PrependError(fmt.Sprintf("%T write field begin error 10:logicalType: ", p), err) } if err := p.LogicalType.Write(oprot); err != nil { return thrift.PrependError(fmt.Sprintf("%T error writing struct: ", p.LogicalType), err) } if err := oprot.WriteFieldEnd(); err != nil { return thrift.PrependError(fmt.Sprintf("%T write field end error 10:logicalType: ", p), err) } } return err } func (p *SchemaElement) String() string { if p == nil { return "" } return fmt.Sprintf("SchemaElement(%+v)", *p) } // Data page header // // Attributes: // - NumValues: Number of values, including NULLs, in this data page. * // - Encoding: Encoding used for this data page * // - DefinitionLevelEncoding: Encoding used for definition levels * // - RepetitionLevelEncoding: Encoding used for repetition levels * // - Statistics: Optional statistics for the data in this page* type DataPageHeader struct { NumValues int32 `thrift:"num_values,1,required" db:"num_values" json:"num_values"` Encoding Encoding `thrift:"encoding,2,required" db:"encoding" json:"encoding"` DefinitionLevelEncoding Encoding `thrift:"definition_level_encoding,3,required" db:"definition_level_encoding" json:"definition_level_encoding"` RepetitionLevelEncoding Encoding `thrift:"repetition_level_encoding,4,required" db:"repetition_level_encoding" json:"repetition_level_encoding"` Statistics *Statistics `thrift:"statistics,5" db:"statistics" json:"statistics,omitempty"` } func NewDataPageHeader() *DataPageHeader { return &DataPageHeader{} } func (p *DataPageHeader) GetNumValues() int32 { return p.NumValues } func (p *DataPageHeader) GetEncoding() Encoding { return p.Encoding } func (p *DataPageHeader) GetDefinitionLevelEncoding() Encoding { return p.DefinitionLevelEncoding } func (p *DataPageHeader) GetRepetitionLevelEncoding() Encoding { return p.RepetitionLevelEncoding } var DataPageHeader_Statistics_DEFAULT *Statistics func (p *DataPageHeader) GetStatistics() *Statistics { if !p.IsSetStatistics() { return DataPageHeader_Statistics_DEFAULT } return p.Statistics } func (p *DataPageHeader) IsSetStatistics() bool { return p.Statistics != nil } func (p *DataPageHeader) Read(iprot thrift.TProtocol) error { if _, err := iprot.ReadStructBegin(); err != nil { return thrift.PrependError(fmt.Sprintf("%T read error: ", p), err) } var issetNumValues bool = false var issetEncoding bool = false var issetDefinitionLevelEncoding bool = false var issetRepetitionLevelEncoding bool = false for { _, fieldTypeId, fieldId, err := iprot.ReadFieldBegin() if err != nil { return thrift.PrependError(fmt.Sprintf("%T field %d read error: ", p, fieldId), err) } if fieldTypeId == thrift.STOP { break } switch fieldId { case 1: if err := p.ReadField1(iprot); err != nil { return err } issetNumValues = true case 2: if err := p.ReadField2(iprot); err != nil { return err } issetEncoding = true case 3: if err := p.ReadField3(iprot); err != nil { return err } issetDefinitionLevelEncoding = true case 4: if err := p.ReadField4(iprot); err != nil { return err } issetRepetitionLevelEncoding = true case 5: if err := p.ReadField5(iprot); err != nil { return err } default: if err := iprot.Skip(fieldTypeId); err != nil { return err } } if err := iprot.ReadFieldEnd(); err != nil { return err } } if err := iprot.ReadStructEnd(); err != nil { return thrift.PrependError(fmt.Sprintf("%T read struct end error: ", p), err) } if !issetNumValues { return thrift.NewTProtocolExceptionWithType(thrift.INVALID_DATA, fmt.Errorf("Required field NumValues is not set")) } if !issetEncoding { return thrift.NewTProtocolExceptionWithType(thrift.INVALID_DATA, fmt.Errorf("Required field Encoding is not set")) } if !issetDefinitionLevelEncoding { return thrift.NewTProtocolExceptionWithType(thrift.INVALID_DATA, fmt.Errorf("Required field DefinitionLevelEncoding is not set")) } if !issetRepetitionLevelEncoding { return thrift.NewTProtocolExceptionWithType(thrift.INVALID_DATA, fmt.Errorf("Required field RepetitionLevelEncoding is not set")) } return nil } func (p *DataPageHeader) ReadField1(iprot thrift.TProtocol) error { if v, err := iprot.ReadI32(); err != nil { return thrift.PrependError("error reading field 1: ", err) } else { p.NumValues = v } return nil } func (p *DataPageHeader) ReadField2(iprot thrift.TProtocol) error { if v, err := iprot.ReadI32(); err != nil { return thrift.PrependError("error reading field 2: ", err) } else { temp := Encoding(v) p.Encoding = temp } return nil } func (p *DataPageHeader) ReadField3(iprot thrift.TProtocol) error { if v, err := iprot.ReadI32(); err != nil { return thrift.PrependError("error reading field 3: ", err) } else { temp := Encoding(v) p.DefinitionLevelEncoding = temp } return nil } func (p *DataPageHeader) ReadField4(iprot thrift.TProtocol) error { if v, err := iprot.ReadI32(); err != nil { return thrift.PrependError("error reading field 4: ", err) } else { temp := Encoding(v) p.RepetitionLevelEncoding = temp } return nil } func (p *DataPageHeader) ReadField5(iprot thrift.TProtocol) error { p.Statistics = &Statistics{} if err := p.Statistics.Read(iprot); err != nil { return thrift.PrependError(fmt.Sprintf("%T error reading struct: ", p.Statistics), err) } return nil } func (p *DataPageHeader) Write(oprot thrift.TProtocol) error { if err := oprot.WriteStructBegin("DataPageHeader"); err != nil { return thrift.PrependError(fmt.Sprintf("%T write struct begin error: ", p), err) } if p != nil { if err := p.writeField1(oprot); err != nil { return err } if err := p.writeField2(oprot); err != nil { return err } if err := p.writeField3(oprot); err != nil { return err } if err := p.writeField4(oprot); err != nil { return err } if err := p.writeField5(oprot); err != nil { return err } } if err := oprot.WriteFieldStop(); err != nil { return thrift.PrependError("write field stop error: ", err) } if err := oprot.WriteStructEnd(); err != nil { return thrift.PrependError("write struct stop error: ", err) } return nil } func (p *DataPageHeader) writeField1(oprot thrift.TProtocol) (err error) { if err := oprot.WriteFieldBegin("num_values", thrift.I32, 1); err != nil { return thrift.PrependError(fmt.Sprintf("%T write field begin error 1:num_values: ", p), err) } if err := oprot.WriteI32(p.NumValues); err != nil { return thrift.PrependError(fmt.Sprintf("%T.num_values (1) field write error: ", p), err) } if err := oprot.WriteFieldEnd(); err != nil { return thrift.PrependError(fmt.Sprintf("%T write field end error 1:num_values: ", p), err) } return err } func (p *DataPageHeader) writeField2(oprot thrift.TProtocol) (err error) { if err := oprot.WriteFieldBegin("encoding", thrift.I32, 2); err != nil { return thrift.PrependError(fmt.Sprintf("%T write field begin error 2:encoding: ", p), err) } if err := oprot.WriteI32(int32(p.Encoding)); err != nil { return thrift.PrependError(fmt.Sprintf("%T.encoding (2) field write error: ", p), err) } if err := oprot.WriteFieldEnd(); err != nil { return thrift.PrependError(fmt.Sprintf("%T write field end error 2:encoding: ", p), err) } return err } func (p *DataPageHeader) writeField3(oprot thrift.TProtocol) (err error) { if err := oprot.WriteFieldBegin("definition_level_encoding", thrift.I32, 3); err != nil { return thrift.PrependError(fmt.Sprintf("%T write field begin error 3:definition_level_encoding: ", p), err) } if err := oprot.WriteI32(int32(p.DefinitionLevelEncoding)); err != nil { return thrift.PrependError(fmt.Sprintf("%T.definition_level_encoding (3) field write error: ", p), err) } if err := oprot.WriteFieldEnd(); err != nil { return thrift.PrependError(fmt.Sprintf("%T write field end error 3:definition_level_encoding: ", p), err) } return err } func (p *DataPageHeader) writeField4(oprot thrift.TProtocol) (err error) { if err := oprot.WriteFieldBegin("repetition_level_encoding", thrift.I32, 4); err != nil { return thrift.PrependError(fmt.Sprintf("%T write field begin error 4:repetition_level_encoding: ", p), err) } if err := oprot.WriteI32(int32(p.RepetitionLevelEncoding)); err != nil { return thrift.PrependError(fmt.Sprintf("%T.repetition_level_encoding (4) field write error: ", p), err) } if err := oprot.WriteFieldEnd(); err != nil { return thrift.PrependError(fmt.Sprintf("%T write field end error 4:repetition_level_encoding: ", p), err) } return err } func (p *DataPageHeader) writeField5(oprot thrift.TProtocol) (err error) { if p.IsSetStatistics() { if err := oprot.WriteFieldBegin("statistics", thrift.STRUCT, 5); err != nil { return thrift.PrependError(fmt.Sprintf("%T write field begin error 5:statistics: ", p), err) } if err := p.Statistics.Write(oprot); err != nil { return thrift.PrependError(fmt.Sprintf("%T error writing struct: ", p.Statistics), err) } if err := oprot.WriteFieldEnd(); err != nil { return thrift.PrependError(fmt.Sprintf("%T write field end error 5:statistics: ", p), err) } } return err } func (p *DataPageHeader) String() string { if p == nil { return "" } return fmt.Sprintf("DataPageHeader(%+v)", *p) } type IndexPageHeader struct { } func NewIndexPageHeader() *IndexPageHeader { return &IndexPageHeader{} } func (p *IndexPageHeader) Read(iprot thrift.TProtocol) error { if _, err := iprot.ReadStructBegin(); err != nil { return thrift.PrependError(fmt.Sprintf("%T read error: ", p), err) } for { _, fieldTypeId, fieldId, err := iprot.ReadFieldBegin() if err != nil { return thrift.PrependError(fmt.Sprintf("%T field %d read error: ", p, fieldId), err) } if fieldTypeId == thrift.STOP { break } if err := iprot.Skip(fieldTypeId); err != nil { return err } if err := iprot.ReadFieldEnd(); err != nil { return err } } if err := iprot.ReadStructEnd(); err != nil { return thrift.PrependError(fmt.Sprintf("%T read struct end error: ", p), err) } return nil } func (p *IndexPageHeader) Write(oprot thrift.TProtocol) error { if err := oprot.WriteStructBegin("IndexPageHeader"); err != nil { return thrift.PrependError(fmt.Sprintf("%T write struct begin error: ", p), err) } if p != nil { } if err := oprot.WriteFieldStop(); err != nil { return thrift.PrependError("write field stop error: ", err) } if err := oprot.WriteStructEnd(); err != nil { return thrift.PrependError("write struct stop error: ", err) } return nil } func (p *IndexPageHeader) String() string { if p == nil { return "" } return fmt.Sprintf("IndexPageHeader(%+v)", *p) } // TODO: * // // Attributes: // - NumValues: Number of values in the dictionary * // - Encoding: Encoding using this dictionary page * // - IsSorted: If true, the entries in the dictionary are sorted in ascending order * type DictionaryPageHeader struct { NumValues int32 `thrift:"num_values,1,required" db:"num_values" json:"num_values"` Encoding Encoding `thrift:"encoding,2,required" db:"encoding" json:"encoding"` IsSorted *bool `thrift:"is_sorted,3" db:"is_sorted" json:"is_sorted,omitempty"` } func NewDictionaryPageHeader() *DictionaryPageHeader { return &DictionaryPageHeader{} } func (p *DictionaryPageHeader) GetNumValues() int32 { return p.NumValues } func (p *DictionaryPageHeader) GetEncoding() Encoding { return p.Encoding } var DictionaryPageHeader_IsSorted_DEFAULT bool func (p *DictionaryPageHeader) GetIsSorted() bool { if !p.IsSetIsSorted() { return DictionaryPageHeader_IsSorted_DEFAULT } return *p.IsSorted } func (p *DictionaryPageHeader) IsSetIsSorted() bool { return p.IsSorted != nil } func (p *DictionaryPageHeader) Read(iprot thrift.TProtocol) error { if _, err := iprot.ReadStructBegin(); err != nil { return thrift.PrependError(fmt.Sprintf("%T read error: ", p), err) } var issetNumValues bool = false var issetEncoding bool = false for { _, fieldTypeId, fieldId, err := iprot.ReadFieldBegin() if err != nil { return thrift.PrependError(fmt.Sprintf("%T field %d read error: ", p, fieldId), err) } if fieldTypeId == thrift.STOP { break } switch fieldId { case 1: if err := p.ReadField1(iprot); err != nil { return err } issetNumValues = true case 2: if err := p.ReadField2(iprot); err != nil { return err } issetEncoding = true case 3: if err := p.ReadField3(iprot); err != nil { return err } default: if err := iprot.Skip(fieldTypeId); err != nil { return err } } if err := iprot.ReadFieldEnd(); err != nil { return err } } if err := iprot.ReadStructEnd(); err != nil { return thrift.PrependError(fmt.Sprintf("%T read struct end error: ", p), err) } if !issetNumValues { return thrift.NewTProtocolExceptionWithType(thrift.INVALID_DATA, fmt.Errorf("Required field NumValues is not set")) } if !issetEncoding { return thrift.NewTProtocolExceptionWithType(thrift.INVALID_DATA, fmt.Errorf("Required field Encoding is not set")) } return nil } func (p *DictionaryPageHeader) ReadField1(iprot thrift.TProtocol) error { if v, err := iprot.ReadI32(); err != nil { return thrift.PrependError("error reading field 1: ", err) } else { p.NumValues = v } return nil } func (p *DictionaryPageHeader) ReadField2(iprot thrift.TProtocol) error { if v, err := iprot.ReadI32(); err != nil { return thrift.PrependError("error reading field 2: ", err) } else { temp := Encoding(v) p.Encoding = temp } return nil } func (p *DictionaryPageHeader) ReadField3(iprot thrift.TProtocol) error { if v, err := iprot.ReadBool(); err != nil { return thrift.PrependError("error reading field 3: ", err) } else { p.IsSorted = &v } return nil } func (p *DictionaryPageHeader) Write(oprot thrift.TProtocol) error { if err := oprot.WriteStructBegin("DictionaryPageHeader"); err != nil { return thrift.PrependError(fmt.Sprintf("%T write struct begin error: ", p), err) } if p != nil { if err := p.writeField1(oprot); err != nil { return err } if err := p.writeField2(oprot); err != nil { return err } if err := p.writeField3(oprot); err != nil { return err } } if err := oprot.WriteFieldStop(); err != nil { return thrift.PrependError("write field stop error: ", err) } if err := oprot.WriteStructEnd(); err != nil { return thrift.PrependError("write struct stop error: ", err) } return nil } func (p *DictionaryPageHeader) writeField1(oprot thrift.TProtocol) (err error) { if err := oprot.WriteFieldBegin("num_values", thrift.I32, 1); err != nil { return thrift.PrependError(fmt.Sprintf("%T write field begin error 1:num_values: ", p), err) } if err := oprot.WriteI32(p.NumValues); err != nil { return thrift.PrependError(fmt.Sprintf("%T.num_values (1) field write error: ", p), err) } if err := oprot.WriteFieldEnd(); err != nil { return thrift.PrependError(fmt.Sprintf("%T write field end error 1:num_values: ", p), err) } return err } func (p *DictionaryPageHeader) writeField2(oprot thrift.TProtocol) (err error) { if err := oprot.WriteFieldBegin("encoding", thrift.I32, 2); err != nil { return thrift.PrependError(fmt.Sprintf("%T write field begin error 2:encoding: ", p), err) } if err := oprot.WriteI32(int32(p.Encoding)); err != nil { return thrift.PrependError(fmt.Sprintf("%T.encoding (2) field write error: ", p), err) } if err := oprot.WriteFieldEnd(); err != nil { return thrift.PrependError(fmt.Sprintf("%T write field end error 2:encoding: ", p), err) } return err } func (p *DictionaryPageHeader) writeField3(oprot thrift.TProtocol) (err error) { if p.IsSetIsSorted() { if err := oprot.WriteFieldBegin("is_sorted", thrift.BOOL, 3); err != nil { return thrift.PrependError(fmt.Sprintf("%T write field begin error 3:is_sorted: ", p), err) } if err := oprot.WriteBool(*p.IsSorted); err != nil { return thrift.PrependError(fmt.Sprintf("%T.is_sorted (3) field write error: ", p), err) } if err := oprot.WriteFieldEnd(); err != nil { return thrift.PrependError(fmt.Sprintf("%T write field end error 3:is_sorted: ", p), err) } } return err } func (p *DictionaryPageHeader) String() string { if p == nil { return "" } return fmt.Sprintf("DictionaryPageHeader(%+v)", *p) } // New page format allowing reading levels without decompressing the data // Repetition and definition levels are uncompressed // The remaining section containing the data is compressed if is_compressed is true // // // Attributes: // - NumValues: Number of values, including NULLs, in this data page. * // - NumNulls: Number of NULL values, in this data page. // Number of non-null = num_values - num_nulls which is also the number of values in the data section * // - NumRows: Number of rows in this data page. which means pages change on record boundaries (r = 0) * // - Encoding: Encoding used for data in this page * // - DefinitionLevelsByteLength: length of the definition levels // - RepetitionLevelsByteLength: length of the repetition levels // - IsCompressed: whether the values are compressed. // Which means the section of the page between // definition_levels_byte_length + repetition_levels_byte_length + 1 and compressed_page_size (included) // is compressed with the compression_codec. // If missing it is considered compressed // - Statistics: optional statistics for this column chunk type DataPageHeaderV2 struct { NumValues int32 `thrift:"num_values,1,required" db:"num_values" json:"num_values"` NumNulls int32 `thrift:"num_nulls,2,required" db:"num_nulls" json:"num_nulls"` NumRows int32 `thrift:"num_rows,3,required" db:"num_rows" json:"num_rows"` Encoding Encoding `thrift:"encoding,4,required" db:"encoding" json:"encoding"` DefinitionLevelsByteLength int32 `thrift:"definition_levels_byte_length,5,required" db:"definition_levels_byte_length" json:"definition_levels_byte_length"` RepetitionLevelsByteLength int32 `thrift:"repetition_levels_byte_length,6,required" db:"repetition_levels_byte_length" json:"repetition_levels_byte_length"` IsCompressed bool `thrift:"is_compressed,7" db:"is_compressed" json:"is_compressed,omitempty"` Statistics *Statistics `thrift:"statistics,8" db:"statistics" json:"statistics,omitempty"` } func NewDataPageHeaderV2() *DataPageHeaderV2 { return &DataPageHeaderV2{ IsCompressed: true, } } func (p *DataPageHeaderV2) GetNumValues() int32 { return p.NumValues } func (p *DataPageHeaderV2) GetNumNulls() int32 { return p.NumNulls } func (p *DataPageHeaderV2) GetNumRows() int32 { return p.NumRows } func (p *DataPageHeaderV2) GetEncoding() Encoding { return p.Encoding } func (p *DataPageHeaderV2) GetDefinitionLevelsByteLength() int32 { return p.DefinitionLevelsByteLength } func (p *DataPageHeaderV2) GetRepetitionLevelsByteLength() int32 { return p.RepetitionLevelsByteLength } var DataPageHeaderV2_IsCompressed_DEFAULT bool = true func (p *DataPageHeaderV2) GetIsCompressed() bool { return p.IsCompressed } var DataPageHeaderV2_Statistics_DEFAULT *Statistics func (p *DataPageHeaderV2) GetStatistics() *Statistics { if !p.IsSetStatistics() { return DataPageHeaderV2_Statistics_DEFAULT } return p.Statistics } func (p *DataPageHeaderV2) IsSetIsCompressed() bool { return p.IsCompressed != DataPageHeaderV2_IsCompressed_DEFAULT } func (p *DataPageHeaderV2) IsSetStatistics() bool { return p.Statistics != nil } func (p *DataPageHeaderV2) Read(iprot thrift.TProtocol) error { if _, err := iprot.ReadStructBegin(); err != nil { return thrift.PrependError(fmt.Sprintf("%T read error: ", p), err) } var issetNumValues bool = false var issetNumNulls bool = false var issetNumRows bool = false var issetEncoding bool = false var issetDefinitionLevelsByteLength bool = false var issetRepetitionLevelsByteLength bool = false for { _, fieldTypeId, fieldId, err := iprot.ReadFieldBegin() if err != nil { return thrift.PrependError(fmt.Sprintf("%T field %d read error: ", p, fieldId), err) } if fieldTypeId == thrift.STOP { break } switch fieldId { case 1: if err := p.ReadField1(iprot); err != nil { return err } issetNumValues = true case 2: if err := p.ReadField2(iprot); err != nil { return err } issetNumNulls = true case 3: if err := p.ReadField3(iprot); err != nil { return err } issetNumRows = true case 4: if err := p.ReadField4(iprot); err != nil { return err } issetEncoding = true case 5: if err := p.ReadField5(iprot); err != nil { return err } issetDefinitionLevelsByteLength = true case 6: if err := p.ReadField6(iprot); err != nil { return err } issetRepetitionLevelsByteLength = true case 7: if err := p.ReadField7(iprot); err != nil { return err } case 8: if err := p.ReadField8(iprot); err != nil { return err } default: if err := iprot.Skip(fieldTypeId); err != nil { return err } } if err := iprot.ReadFieldEnd(); err != nil { return err } } if err := iprot.ReadStructEnd(); err != nil { return thrift.PrependError(fmt.Sprintf("%T read struct end error: ", p), err) } if !issetNumValues { return thrift.NewTProtocolExceptionWithType(thrift.INVALID_DATA, fmt.Errorf("Required field NumValues is not set")) } if !issetNumNulls { return thrift.NewTProtocolExceptionWithType(thrift.INVALID_DATA, fmt.Errorf("Required field NumNulls is not set")) } if !issetNumRows { return thrift.NewTProtocolExceptionWithType(thrift.INVALID_DATA, fmt.Errorf("Required field NumRows is not set")) } if !issetEncoding { return thrift.NewTProtocolExceptionWithType(thrift.INVALID_DATA, fmt.Errorf("Required field Encoding is not set")) } if !issetDefinitionLevelsByteLength { return thrift.NewTProtocolExceptionWithType(thrift.INVALID_DATA, fmt.Errorf("Required field DefinitionLevelsByteLength is not set")) } if !issetRepetitionLevelsByteLength { return thrift.NewTProtocolExceptionWithType(thrift.INVALID_DATA, fmt.Errorf("Required field RepetitionLevelsByteLength is not set")) } return nil } func (p *DataPageHeaderV2) ReadField1(iprot thrift.TProtocol) error { if v, err := iprot.ReadI32(); err != nil { return thrift.PrependError("error reading field 1: ", err) } else { p.NumValues = v } return nil } func (p *DataPageHeaderV2) ReadField2(iprot thrift.TProtocol) error { if v, err := iprot.ReadI32(); err != nil { return thrift.PrependError("error reading field 2: ", err) } else { p.NumNulls = v } return nil } func (p *DataPageHeaderV2) ReadField3(iprot thrift.TProtocol) error { if v, err := iprot.ReadI32(); err != nil { return thrift.PrependError("error reading field 3: ", err) } else { p.NumRows = v } return nil } func (p *DataPageHeaderV2) ReadField4(iprot thrift.TProtocol) error { if v, err := iprot.ReadI32(); err != nil { return thrift.PrependError("error reading field 4: ", err) } else { temp := Encoding(v) p.Encoding = temp } return nil } func (p *DataPageHeaderV2) ReadField5(iprot thrift.TProtocol) error { if v, err := iprot.ReadI32(); err != nil { return thrift.PrependError("error reading field 5: ", err) } else { p.DefinitionLevelsByteLength = v } return nil } func (p *DataPageHeaderV2) ReadField6(iprot thrift.TProtocol) error { if v, err := iprot.ReadI32(); err != nil { return thrift.PrependError("error reading field 6: ", err) } else { p.RepetitionLevelsByteLength = v } return nil } func (p *DataPageHeaderV2) ReadField7(iprot thrift.TProtocol) error { if v, err := iprot.ReadBool(); err != nil { return thrift.PrependError("error reading field 7: ", err) } else { p.IsCompressed = v } return nil } func (p *DataPageHeaderV2) ReadField8(iprot thrift.TProtocol) error { p.Statistics = &Statistics{} if err := p.Statistics.Read(iprot); err != nil { return thrift.PrependError(fmt.Sprintf("%T error reading struct: ", p.Statistics), err) } return nil } func (p *DataPageHeaderV2) Write(oprot thrift.TProtocol) error { if err := oprot.WriteStructBegin("DataPageHeaderV2"); err != nil { return thrift.PrependError(fmt.Sprintf("%T write struct begin error: ", p), err) } if p != nil { if err := p.writeField1(oprot); err != nil { return err } if err := p.writeField2(oprot); err != nil { return err } if err := p.writeField3(oprot); err != nil { return err } if err := p.writeField4(oprot); err != nil { return err } if err := p.writeField5(oprot); err != nil { return err } if err := p.writeField6(oprot); err != nil { return err } if err := p.writeField7(oprot); err != nil { return err } if err := p.writeField8(oprot); err != nil { return err } } if err := oprot.WriteFieldStop(); err != nil { return thrift.PrependError("write field stop error: ", err) } if err := oprot.WriteStructEnd(); err != nil { return thrift.PrependError("write struct stop error: ", err) } return nil } func (p *DataPageHeaderV2) writeField1(oprot thrift.TProtocol) (err error) { if err := oprot.WriteFieldBegin("num_values", thrift.I32, 1); err != nil { return thrift.PrependError(fmt.Sprintf("%T write field begin error 1:num_values: ", p), err) } if err := oprot.WriteI32(p.NumValues); err != nil { return thrift.PrependError(fmt.Sprintf("%T.num_values (1) field write error: ", p), err) } if err := oprot.WriteFieldEnd(); err != nil { return thrift.PrependError(fmt.Sprintf("%T write field end error 1:num_values: ", p), err) } return err } func (p *DataPageHeaderV2) writeField2(oprot thrift.TProtocol) (err error) { if err := oprot.WriteFieldBegin("num_nulls", thrift.I32, 2); err != nil { return thrift.PrependError(fmt.Sprintf("%T write field begin error 2:num_nulls: ", p), err) } if err := oprot.WriteI32(p.NumNulls); err != nil { return thrift.PrependError(fmt.Sprintf("%T.num_nulls (2) field write error: ", p), err) } if err := oprot.WriteFieldEnd(); err != nil { return thrift.PrependError(fmt.Sprintf("%T write field end error 2:num_nulls: ", p), err) } return err } func (p *DataPageHeaderV2) writeField3(oprot thrift.TProtocol) (err error) { if err := oprot.WriteFieldBegin("num_rows", thrift.I32, 3); err != nil { return thrift.PrependError(fmt.Sprintf("%T write field begin error 3:num_rows: ", p), err) } if err := oprot.WriteI32(p.NumRows); err != nil { return thrift.PrependError(fmt.Sprintf("%T.num_rows (3) field write error: ", p), err) } if err := oprot.WriteFieldEnd(); err != nil { return thrift.PrependError(fmt.Sprintf("%T write field end error 3:num_rows: ", p), err) } return err } func (p *DataPageHeaderV2) writeField4(oprot thrift.TProtocol) (err error) { if err := oprot.WriteFieldBegin("encoding", thrift.I32, 4); err != nil { return thrift.PrependError(fmt.Sprintf("%T write field begin error 4:encoding: ", p), err) } if err := oprot.WriteI32(int32(p.Encoding)); err != nil { return thrift.PrependError(fmt.Sprintf("%T.encoding (4) field write error: ", p), err) } if err := oprot.WriteFieldEnd(); err != nil { return thrift.PrependError(fmt.Sprintf("%T write field end error 4:encoding: ", p), err) } return err } func (p *DataPageHeaderV2) writeField5(oprot thrift.TProtocol) (err error) { if err := oprot.WriteFieldBegin("definition_levels_byte_length", thrift.I32, 5); err != nil { return thrift.PrependError(fmt.Sprintf("%T write field begin error 5:definition_levels_byte_length: ", p), err) } if err := oprot.WriteI32(p.DefinitionLevelsByteLength); err != nil { return thrift.PrependError(fmt.Sprintf("%T.definition_levels_byte_length (5) field write error: ", p), err) } if err := oprot.WriteFieldEnd(); err != nil { return thrift.PrependError(fmt.Sprintf("%T write field end error 5:definition_levels_byte_length: ", p), err) } return err } func (p *DataPageHeaderV2) writeField6(oprot thrift.TProtocol) (err error) { if err := oprot.WriteFieldBegin("repetition_levels_byte_length", thrift.I32, 6); err != nil { return thrift.PrependError(fmt.Sprintf("%T write field begin error 6:repetition_levels_byte_length: ", p), err) } if err := oprot.WriteI32(p.RepetitionLevelsByteLength); err != nil { return thrift.PrependError(fmt.Sprintf("%T.repetition_levels_byte_length (6) field write error: ", p), err) } if err := oprot.WriteFieldEnd(); err != nil { return thrift.PrependError(fmt.Sprintf("%T write field end error 6:repetition_levels_byte_length: ", p), err) } return err } func (p *DataPageHeaderV2) writeField7(oprot thrift.TProtocol) (err error) { if p.IsSetIsCompressed() { if err := oprot.WriteFieldBegin("is_compressed", thrift.BOOL, 7); err != nil { return thrift.PrependError(fmt.Sprintf("%T write field begin error 7:is_compressed: ", p), err) } if err := oprot.WriteBool(p.IsCompressed); err != nil { return thrift.PrependError(fmt.Sprintf("%T.is_compressed (7) field write error: ", p), err) } if err := oprot.WriteFieldEnd(); err != nil { return thrift.PrependError(fmt.Sprintf("%T write field end error 7:is_compressed: ", p), err) } } return err } func (p *DataPageHeaderV2) writeField8(oprot thrift.TProtocol) (err error) { if p.IsSetStatistics() { if err := oprot.WriteFieldBegin("statistics", thrift.STRUCT, 8); err != nil { return thrift.PrependError(fmt.Sprintf("%T write field begin error 8:statistics: ", p), err) } if err := p.Statistics.Write(oprot); err != nil { return thrift.PrependError(fmt.Sprintf("%T error writing struct: ", p.Statistics), err) } if err := oprot.WriteFieldEnd(); err != nil { return thrift.PrependError(fmt.Sprintf("%T write field end error 8:statistics: ", p), err) } } return err } func (p *DataPageHeaderV2) String() string { if p == nil { return "" } return fmt.Sprintf("DataPageHeaderV2(%+v)", *p) } // Attributes: // - Type: the type of the page: indicates which of the *_header fields is set * // - UncompressedPageSize: Uncompressed page size in bytes (not including this header) * // - CompressedPageSize: Compressed page size in bytes (not including this header) * // - Crc: 32bit crc for the data below. This allows for disabling checksumming in HDFS // if only a few pages needs to be read // // - DataPageHeader // - IndexPageHeader // - DictionaryPageHeader // - DataPageHeaderV2 type PageHeader struct { Type PageType `thrift:"type,1,required" db:"type" json:"type"` UncompressedPageSize int32 `thrift:"uncompressed_page_size,2,required" db:"uncompressed_page_size" json:"uncompressed_page_size"` CompressedPageSize int32 `thrift:"compressed_page_size,3,required" db:"compressed_page_size" json:"compressed_page_size"` Crc *int32 `thrift:"crc,4" db:"crc" json:"crc,omitempty"` DataPageHeader *DataPageHeader `thrift:"data_page_header,5" db:"data_page_header" json:"data_page_header,omitempty"` IndexPageHeader *IndexPageHeader `thrift:"index_page_header,6" db:"index_page_header" json:"index_page_header,omitempty"` DictionaryPageHeader *DictionaryPageHeader `thrift:"dictionary_page_header,7" db:"dictionary_page_header" json:"dictionary_page_header,omitempty"` DataPageHeaderV2 *DataPageHeaderV2 `thrift:"data_page_header_v2,8" db:"data_page_header_v2" json:"data_page_header_v2,omitempty"` } func NewPageHeader() *PageHeader { return &PageHeader{} } func (p *PageHeader) GetType() PageType { return p.Type } func (p *PageHeader) GetUncompressedPageSize() int32 { return p.UncompressedPageSize } func (p *PageHeader) GetCompressedPageSize() int32 { return p.CompressedPageSize } var PageHeader_Crc_DEFAULT int32 func (p *PageHeader) GetCrc() int32 { if !p.IsSetCrc() { return PageHeader_Crc_DEFAULT } return *p.Crc } var PageHeader_DataPageHeader_DEFAULT *DataPageHeader func (p *PageHeader) GetDataPageHeader() *DataPageHeader { if !p.IsSetDataPageHeader() { return PageHeader_DataPageHeader_DEFAULT } return p.DataPageHeader } var PageHeader_IndexPageHeader_DEFAULT *IndexPageHeader func (p *PageHeader) GetIndexPageHeader() *IndexPageHeader { if !p.IsSetIndexPageHeader() { return PageHeader_IndexPageHeader_DEFAULT } return p.IndexPageHeader } var PageHeader_DictionaryPageHeader_DEFAULT *DictionaryPageHeader func (p *PageHeader) GetDictionaryPageHeader() *DictionaryPageHeader { if !p.IsSetDictionaryPageHeader() { return PageHeader_DictionaryPageHeader_DEFAULT } return p.DictionaryPageHeader } var PageHeader_DataPageHeaderV2_DEFAULT *DataPageHeaderV2 func (p *PageHeader) GetDataPageHeaderV2() *DataPageHeaderV2 { if !p.IsSetDataPageHeaderV2() { return PageHeader_DataPageHeaderV2_DEFAULT } return p.DataPageHeaderV2 } func (p *PageHeader) IsSetCrc() bool { return p.Crc != nil } func (p *PageHeader) IsSetDataPageHeader() bool { return p.DataPageHeader != nil } func (p *PageHeader) IsSetIndexPageHeader() bool { return p.IndexPageHeader != nil } func (p *PageHeader) IsSetDictionaryPageHeader() bool { return p.DictionaryPageHeader != nil } func (p *PageHeader) IsSetDataPageHeaderV2() bool { return p.DataPageHeaderV2 != nil } func (p *PageHeader) Read(iprot thrift.TProtocol) error { if _, err := iprot.ReadStructBegin(); err != nil { return thrift.PrependError(fmt.Sprintf("%T read error: ", p), err) } var issetType bool = false var issetUncompressedPageSize bool = false var issetCompressedPageSize bool = false for { _, fieldTypeId, fieldId, err := iprot.ReadFieldBegin() if err != nil { return thrift.PrependError(fmt.Sprintf("%T field %d read error: ", p, fieldId), err) } if fieldTypeId == thrift.STOP { break } switch fieldId { case 1: if err := p.ReadField1(iprot); err != nil { return err } issetType = true case 2: if err := p.ReadField2(iprot); err != nil { return err } issetUncompressedPageSize = true case 3: if err := p.ReadField3(iprot); err != nil { return err } issetCompressedPageSize = true case 4: if err := p.ReadField4(iprot); err != nil { return err } case 5: if err := p.ReadField5(iprot); err != nil { return err } case 6: if err := p.ReadField6(iprot); err != nil { return err } case 7: if err := p.ReadField7(iprot); err != nil { return err } case 8: if err := p.ReadField8(iprot); err != nil { return err } default: if err := iprot.Skip(fieldTypeId); err != nil { return err } } if err := iprot.ReadFieldEnd(); err != nil { return err } } if err := iprot.ReadStructEnd(); err != nil { return thrift.PrependError(fmt.Sprintf("%T read struct end error: ", p), err) } if !issetType { return thrift.NewTProtocolExceptionWithType(thrift.INVALID_DATA, fmt.Errorf("Required field Type is not set")) } if !issetUncompressedPageSize { return thrift.NewTProtocolExceptionWithType(thrift.INVALID_DATA, fmt.Errorf("Required field UncompressedPageSize is not set")) } if !issetCompressedPageSize { return thrift.NewTProtocolExceptionWithType(thrift.INVALID_DATA, fmt.Errorf("Required field CompressedPageSize is not set")) } return nil } func (p *PageHeader) ReadField1(iprot thrift.TProtocol) error { if v, err := iprot.ReadI32(); err != nil { return thrift.PrependError("error reading field 1: ", err) } else { temp := PageType(v) p.Type = temp } return nil } func (p *PageHeader) ReadField2(iprot thrift.TProtocol) error { if v, err := iprot.ReadI32(); err != nil { return thrift.PrependError("error reading field 2: ", err) } else { p.UncompressedPageSize = v } return nil } func (p *PageHeader) ReadField3(iprot thrift.TProtocol) error { if v, err := iprot.ReadI32(); err != nil { return thrift.PrependError("error reading field 3: ", err) } else { p.CompressedPageSize = v } return nil } func (p *PageHeader) ReadField4(iprot thrift.TProtocol) error { if v, err := iprot.ReadI32(); err != nil { return thrift.PrependError("error reading field 4: ", err) } else { p.Crc = &v } return nil } func (p *PageHeader) ReadField5(iprot thrift.TProtocol) error { p.DataPageHeader = &DataPageHeader{} if err := p.DataPageHeader.Read(iprot); err != nil { return thrift.PrependError(fmt.Sprintf("%T error reading struct: ", p.DataPageHeader), err) } return nil } func (p *PageHeader) ReadField6(iprot thrift.TProtocol) error { p.IndexPageHeader = &IndexPageHeader{} if err := p.IndexPageHeader.Read(iprot); err != nil { return thrift.PrependError(fmt.Sprintf("%T error reading struct: ", p.IndexPageHeader), err) } return nil } func (p *PageHeader) ReadField7(iprot thrift.TProtocol) error { p.DictionaryPageHeader = &DictionaryPageHeader{} if err := p.DictionaryPageHeader.Read(iprot); err != nil { return thrift.PrependError(fmt.Sprintf("%T error reading struct: ", p.DictionaryPageHeader), err) } return nil } func (p *PageHeader) ReadField8(iprot thrift.TProtocol) error { p.DataPageHeaderV2 = &DataPageHeaderV2{ IsCompressed: true, } if err := p.DataPageHeaderV2.Read(iprot); err != nil { return thrift.PrependError(fmt.Sprintf("%T error reading struct: ", p.DataPageHeaderV2), err) } return nil } func (p *PageHeader) Write(oprot thrift.TProtocol) error { if err := oprot.WriteStructBegin("PageHeader"); err != nil { return thrift.PrependError(fmt.Sprintf("%T write struct begin error: ", p), err) } if p != nil { if err := p.writeField1(oprot); err != nil { return err } if err := p.writeField2(oprot); err != nil { return err } if err := p.writeField3(oprot); err != nil { return err } if err := p.writeField4(oprot); err != nil { return err } if err := p.writeField5(oprot); err != nil { return err } if err := p.writeField6(oprot); err != nil { return err } if err := p.writeField7(oprot); err != nil { return err } if err := p.writeField8(oprot); err != nil { return err } } if err := oprot.WriteFieldStop(); err != nil { return thrift.PrependError("write field stop error: ", err) } if err := oprot.WriteStructEnd(); err != nil { return thrift.PrependError("write struct stop error: ", err) } return nil } func (p *PageHeader) writeField1(oprot thrift.TProtocol) (err error) { if err := oprot.WriteFieldBegin("type", thrift.I32, 1); err != nil { return thrift.PrependError(fmt.Sprintf("%T write field begin error 1:type: ", p), err) } if err := oprot.WriteI32(int32(p.Type)); err != nil { return thrift.PrependError(fmt.Sprintf("%T.type (1) field write error: ", p), err) } if err := oprot.WriteFieldEnd(); err != nil { return thrift.PrependError(fmt.Sprintf("%T write field end error 1:type: ", p), err) } return err } func (p *PageHeader) writeField2(oprot thrift.TProtocol) (err error) { if err := oprot.WriteFieldBegin("uncompressed_page_size", thrift.I32, 2); err != nil { return thrift.PrependError(fmt.Sprintf("%T write field begin error 2:uncompressed_page_size: ", p), err) } if err := oprot.WriteI32(p.UncompressedPageSize); err != nil { return thrift.PrependError(fmt.Sprintf("%T.uncompressed_page_size (2) field write error: ", p), err) } if err := oprot.WriteFieldEnd(); err != nil { return thrift.PrependError(fmt.Sprintf("%T write field end error 2:uncompressed_page_size: ", p), err) } return err } func (p *PageHeader) writeField3(oprot thrift.TProtocol) (err error) { if err := oprot.WriteFieldBegin("compressed_page_size", thrift.I32, 3); err != nil { return thrift.PrependError(fmt.Sprintf("%T write field begin error 3:compressed_page_size: ", p), err) } if err := oprot.WriteI32(p.CompressedPageSize); err != nil { return thrift.PrependError(fmt.Sprintf("%T.compressed_page_size (3) field write error: ", p), err) } if err := oprot.WriteFieldEnd(); err != nil { return thrift.PrependError(fmt.Sprintf("%T write field end error 3:compressed_page_size: ", p), err) } return err } func (p *PageHeader) writeField4(oprot thrift.TProtocol) (err error) { if p.IsSetCrc() { if err := oprot.WriteFieldBegin("crc", thrift.I32, 4); err != nil { return thrift.PrependError(fmt.Sprintf("%T write field begin error 4:crc: ", p), err) } if err := oprot.WriteI32(*p.Crc); err != nil { return thrift.PrependError(fmt.Sprintf("%T.crc (4) field write error: ", p), err) } if err := oprot.WriteFieldEnd(); err != nil { return thrift.PrependError(fmt.Sprintf("%T write field end error 4:crc: ", p), err) } } return err } func (p *PageHeader) writeField5(oprot thrift.TProtocol) (err error) { if p.IsSetDataPageHeader() { if err := oprot.WriteFieldBegin("data_page_header", thrift.STRUCT, 5); err != nil { return thrift.PrependError(fmt.Sprintf("%T write field begin error 5:data_page_header: ", p), err) } if err := p.DataPageHeader.Write(oprot); err != nil { return thrift.PrependError(fmt.Sprintf("%T error writing struct: ", p.DataPageHeader), err) } if err := oprot.WriteFieldEnd(); err != nil { return thrift.PrependError(fmt.Sprintf("%T write field end error 5:data_page_header: ", p), err) } } return err } func (p *PageHeader) writeField6(oprot thrift.TProtocol) (err error) { if p.IsSetIndexPageHeader() { if err := oprot.WriteFieldBegin("index_page_header", thrift.STRUCT, 6); err != nil { return thrift.PrependError(fmt.Sprintf("%T write field begin error 6:index_page_header: ", p), err) } if err := p.IndexPageHeader.Write(oprot); err != nil { return thrift.PrependError(fmt.Sprintf("%T error writing struct: ", p.IndexPageHeader), err) } if err := oprot.WriteFieldEnd(); err != nil { return thrift.PrependError(fmt.Sprintf("%T write field end error 6:index_page_header: ", p), err) } } return err } func (p *PageHeader) writeField7(oprot thrift.TProtocol) (err error) { if p.IsSetDictionaryPageHeader() { if err := oprot.WriteFieldBegin("dictionary_page_header", thrift.STRUCT, 7); err != nil { return thrift.PrependError(fmt.Sprintf("%T write field begin error 7:dictionary_page_header: ", p), err) } if err := p.DictionaryPageHeader.Write(oprot); err != nil { return thrift.PrependError(fmt.Sprintf("%T error writing struct: ", p.DictionaryPageHeader), err) } if err := oprot.WriteFieldEnd(); err != nil { return thrift.PrependError(fmt.Sprintf("%T write field end error 7:dictionary_page_header: ", p), err) } } return err } func (p *PageHeader) writeField8(oprot thrift.TProtocol) (err error) { if p.IsSetDataPageHeaderV2() { if err := oprot.WriteFieldBegin("data_page_header_v2", thrift.STRUCT, 8); err != nil { return thrift.PrependError(fmt.Sprintf("%T write field begin error 8:data_page_header_v2: ", p), err) } if err := p.DataPageHeaderV2.Write(oprot); err != nil { return thrift.PrependError(fmt.Sprintf("%T error writing struct: ", p.DataPageHeaderV2), err) } if err := oprot.WriteFieldEnd(); err != nil { return thrift.PrependError(fmt.Sprintf("%T write field end error 8:data_page_header_v2: ", p), err) } } return err } func (p *PageHeader) String() string { if p == nil { return "" } return fmt.Sprintf("PageHeader(%+v)", *p) } // Wrapper struct to store key values // // Attributes: // - Key // - Value type KeyValue struct { Key string `thrift:"key,1,required" db:"key" json:"key"` Value *string `thrift:"value,2" db:"value" json:"value,omitempty"` } func NewKeyValue() *KeyValue { return &KeyValue{} } func (p *KeyValue) GetKey() string { return p.Key } var KeyValue_Value_DEFAULT string func (p *KeyValue) GetValue() string { if !p.IsSetValue() { return KeyValue_Value_DEFAULT } return *p.Value } func (p *KeyValue) IsSetValue() bool { return p.Value != nil } func (p *KeyValue) Read(iprot thrift.TProtocol) error { if _, err := iprot.ReadStructBegin(); err != nil { return thrift.PrependError(fmt.Sprintf("%T read error: ", p), err) } var issetKey bool = false for { _, fieldTypeId, fieldId, err := iprot.ReadFieldBegin() if err != nil { return thrift.PrependError(fmt.Sprintf("%T field %d read error: ", p, fieldId), err) } if fieldTypeId == thrift.STOP { break } switch fieldId { case 1: if err := p.ReadField1(iprot); err != nil { return err } issetKey = true case 2: if err := p.ReadField2(iprot); err != nil { return err } default: if err := iprot.Skip(fieldTypeId); err != nil { return err } } if err := iprot.ReadFieldEnd(); err != nil { return err } } if err := iprot.ReadStructEnd(); err != nil { return thrift.PrependError(fmt.Sprintf("%T read struct end error: ", p), err) } if !issetKey { return thrift.NewTProtocolExceptionWithType(thrift.INVALID_DATA, fmt.Errorf("Required field Key is not set")) } return nil } func (p *KeyValue) ReadField1(iprot thrift.TProtocol) error { if v, err := iprot.ReadString(); err != nil { return thrift.PrependError("error reading field 1: ", err) } else { p.Key = v } return nil } func (p *KeyValue) ReadField2(iprot thrift.TProtocol) error { if v, err := iprot.ReadString(); err != nil { return thrift.PrependError("error reading field 2: ", err) } else { p.Value = &v } return nil } func (p *KeyValue) Write(oprot thrift.TProtocol) error { if err := oprot.WriteStructBegin("KeyValue"); err != nil { return thrift.PrependError(fmt.Sprintf("%T write struct begin error: ", p), err) } if p != nil { if err := p.writeField1(oprot); err != nil { return err } if err := p.writeField2(oprot); err != nil { return err } } if err := oprot.WriteFieldStop(); err != nil { return thrift.PrependError("write field stop error: ", err) } if err := oprot.WriteStructEnd(); err != nil { return thrift.PrependError("write struct stop error: ", err) } return nil } func (p *KeyValue) writeField1(oprot thrift.TProtocol) (err error) { if err := oprot.WriteFieldBegin("key", thrift.STRING, 1); err != nil { return thrift.PrependError(fmt.Sprintf("%T write field begin error 1:key: ", p), err) } if err := oprot.WriteString(string(p.Key)); err != nil { return thrift.PrependError(fmt.Sprintf("%T.key (1) field write error: ", p), err) } if err := oprot.WriteFieldEnd(); err != nil { return thrift.PrependError(fmt.Sprintf("%T write field end error 1:key: ", p), err) } return err } func (p *KeyValue) writeField2(oprot thrift.TProtocol) (err error) { if p.IsSetValue() { if err := oprot.WriteFieldBegin("value", thrift.STRING, 2); err != nil { return thrift.PrependError(fmt.Sprintf("%T write field begin error 2:value: ", p), err) } if err := oprot.WriteString(string(*p.Value)); err != nil { return thrift.PrependError(fmt.Sprintf("%T.value (2) field write error: ", p), err) } if err := oprot.WriteFieldEnd(); err != nil { return thrift.PrependError(fmt.Sprintf("%T write field end error 2:value: ", p), err) } } return err } func (p *KeyValue) String() string { if p == nil { return "" } return fmt.Sprintf("KeyValue(%+v)", *p) } // Wrapper struct to specify sort order // // Attributes: // - ColumnIdx: The column index (in this row group) * // - Descending: If true, indicates this column is sorted in descending order. * // - NullsFirst: If true, nulls will come before non-null values, otherwise, // nulls go at the end. type SortingColumn struct { ColumnIdx int32 `thrift:"column_idx,1,required" db:"column_idx" json:"column_idx"` Descending bool `thrift:"descending,2,required" db:"descending" json:"descending"` NullsFirst bool `thrift:"nulls_first,3,required" db:"nulls_first" json:"nulls_first"` } func NewSortingColumn() *SortingColumn { return &SortingColumn{} } func (p *SortingColumn) GetColumnIdx() int32 { return p.ColumnIdx } func (p *SortingColumn) GetDescending() bool { return p.Descending } func (p *SortingColumn) GetNullsFirst() bool { return p.NullsFirst } func (p *SortingColumn) Read(iprot thrift.TProtocol) error { if _, err := iprot.ReadStructBegin(); err != nil { return thrift.PrependError(fmt.Sprintf("%T read error: ", p), err) } var issetColumnIdx bool = false var issetDescending bool = false var issetNullsFirst bool = false for { _, fieldTypeId, fieldId, err := iprot.ReadFieldBegin() if err != nil { return thrift.PrependError(fmt.Sprintf("%T field %d read error: ", p, fieldId), err) } if fieldTypeId == thrift.STOP { break } switch fieldId { case 1: if err := p.ReadField1(iprot); err != nil { return err } issetColumnIdx = true case 2: if err := p.ReadField2(iprot); err != nil { return err } issetDescending = true case 3: if err := p.ReadField3(iprot); err != nil { return err } issetNullsFirst = true default: if err := iprot.Skip(fieldTypeId); err != nil { return err } } if err := iprot.ReadFieldEnd(); err != nil { return err } } if err := iprot.ReadStructEnd(); err != nil { return thrift.PrependError(fmt.Sprintf("%T read struct end error: ", p), err) } if !issetColumnIdx { return thrift.NewTProtocolExceptionWithType(thrift.INVALID_DATA, fmt.Errorf("Required field ColumnIdx is not set")) } if !issetDescending { return thrift.NewTProtocolExceptionWithType(thrift.INVALID_DATA, fmt.Errorf("Required field Descending is not set")) } if !issetNullsFirst { return thrift.NewTProtocolExceptionWithType(thrift.INVALID_DATA, fmt.Errorf("Required field NullsFirst is not set")) } return nil } func (p *SortingColumn) ReadField1(iprot thrift.TProtocol) error { if v, err := iprot.ReadI32(); err != nil { return thrift.PrependError("error reading field 1: ", err) } else { p.ColumnIdx = v } return nil } func (p *SortingColumn) ReadField2(iprot thrift.TProtocol) error { if v, err := iprot.ReadBool(); err != nil { return thrift.PrependError("error reading field 2: ", err) } else { p.Descending = v } return nil } func (p *SortingColumn) ReadField3(iprot thrift.TProtocol) error { if v, err := iprot.ReadBool(); err != nil { return thrift.PrependError("error reading field 3: ", err) } else { p.NullsFirst = v } return nil } func (p *SortingColumn) Write(oprot thrift.TProtocol) error { if err := oprot.WriteStructBegin("SortingColumn"); err != nil { return thrift.PrependError(fmt.Sprintf("%T write struct begin error: ", p), err) } if p != nil { if err := p.writeField1(oprot); err != nil { return err } if err := p.writeField2(oprot); err != nil { return err } if err := p.writeField3(oprot); err != nil { return err } } if err := oprot.WriteFieldStop(); err != nil { return thrift.PrependError("write field stop error: ", err) } if err := oprot.WriteStructEnd(); err != nil { return thrift.PrependError("write struct stop error: ", err) } return nil } func (p *SortingColumn) writeField1(oprot thrift.TProtocol) (err error) { if err := oprot.WriteFieldBegin("column_idx", thrift.I32, 1); err != nil { return thrift.PrependError(fmt.Sprintf("%T write field begin error 1:column_idx: ", p), err) } if err := oprot.WriteI32(p.ColumnIdx); err != nil { return thrift.PrependError(fmt.Sprintf("%T.column_idx (1) field write error: ", p), err) } if err := oprot.WriteFieldEnd(); err != nil { return thrift.PrependError(fmt.Sprintf("%T write field end error 1:column_idx: ", p), err) } return err } func (p *SortingColumn) writeField2(oprot thrift.TProtocol) (err error) { if err := oprot.WriteFieldBegin("descending", thrift.BOOL, 2); err != nil { return thrift.PrependError(fmt.Sprintf("%T write field begin error 2:descending: ", p), err) } if err := oprot.WriteBool(p.Descending); err != nil { return thrift.PrependError(fmt.Sprintf("%T.descending (2) field write error: ", p), err) } if err := oprot.WriteFieldEnd(); err != nil { return thrift.PrependError(fmt.Sprintf("%T write field end error 2:descending: ", p), err) } return err } func (p *SortingColumn) writeField3(oprot thrift.TProtocol) (err error) { if err := oprot.WriteFieldBegin("nulls_first", thrift.BOOL, 3); err != nil { return thrift.PrependError(fmt.Sprintf("%T write field begin error 3:nulls_first: ", p), err) } if err := oprot.WriteBool(p.NullsFirst); err != nil { return thrift.PrependError(fmt.Sprintf("%T.nulls_first (3) field write error: ", p), err) } if err := oprot.WriteFieldEnd(); err != nil { return thrift.PrependError(fmt.Sprintf("%T write field end error 3:nulls_first: ", p), err) } return err } func (p *SortingColumn) String() string { if p == nil { return "" } return fmt.Sprintf("SortingColumn(%+v)", *p) } // statistics of a given page type and encoding // // Attributes: // - PageType: the page type (data/dic/...) * // - Encoding: encoding of the page * // - Count: number of pages of this type with this encoding * type PageEncodingStats struct { PageType PageType `thrift:"page_type,1,required" db:"page_type" json:"page_type"` Encoding Encoding `thrift:"encoding,2,required" db:"encoding" json:"encoding"` Count int32 `thrift:"count,3,required" db:"count" json:"count"` } func NewPageEncodingStats() *PageEncodingStats { return &PageEncodingStats{} } func (p *PageEncodingStats) GetPageType() PageType { return p.PageType } func (p *PageEncodingStats) GetEncoding() Encoding { return p.Encoding } func (p *PageEncodingStats) GetCount() int32 { return p.Count } func (p *PageEncodingStats) Read(iprot thrift.TProtocol) error { if _, err := iprot.ReadStructBegin(); err != nil { return thrift.PrependError(fmt.Sprintf("%T read error: ", p), err) } var issetPageType bool = false var issetEncoding bool = false var issetCount bool = false for { _, fieldTypeId, fieldId, err := iprot.ReadFieldBegin() if err != nil { return thrift.PrependError(fmt.Sprintf("%T field %d read error: ", p, fieldId), err) } if fieldTypeId == thrift.STOP { break } switch fieldId { case 1: if err := p.ReadField1(iprot); err != nil { return err } issetPageType = true case 2: if err := p.ReadField2(iprot); err != nil { return err } issetEncoding = true case 3: if err := p.ReadField3(iprot); err != nil { return err } issetCount = true default: if err := iprot.Skip(fieldTypeId); err != nil { return err } } if err := iprot.ReadFieldEnd(); err != nil { return err } } if err := iprot.ReadStructEnd(); err != nil { return thrift.PrependError(fmt.Sprintf("%T read struct end error: ", p), err) } if !issetPageType { return thrift.NewTProtocolExceptionWithType(thrift.INVALID_DATA, fmt.Errorf("Required field PageType is not set")) } if !issetEncoding { return thrift.NewTProtocolExceptionWithType(thrift.INVALID_DATA, fmt.Errorf("Required field Encoding is not set")) } if !issetCount { return thrift.NewTProtocolExceptionWithType(thrift.INVALID_DATA, fmt.Errorf("Required field Count is not set")) } return nil } func (p *PageEncodingStats) ReadField1(iprot thrift.TProtocol) error { if v, err := iprot.ReadI32(); err != nil { return thrift.PrependError("error reading field 1: ", err) } else { temp := PageType(v) p.PageType = temp } return nil } func (p *PageEncodingStats) ReadField2(iprot thrift.TProtocol) error { if v, err := iprot.ReadI32(); err != nil { return thrift.PrependError("error reading field 2: ", err) } else { temp := Encoding(v) p.Encoding = temp } return nil } func (p *PageEncodingStats) ReadField3(iprot thrift.TProtocol) error { if v, err := iprot.ReadI32(); err != nil { return thrift.PrependError("error reading field 3: ", err) } else { p.Count = v } return nil } func (p *PageEncodingStats) Write(oprot thrift.TProtocol) error { if err := oprot.WriteStructBegin("PageEncodingStats"); err != nil { return thrift.PrependError(fmt.Sprintf("%T write struct begin error: ", p), err) } if p != nil { if err := p.writeField1(oprot); err != nil { return err } if err := p.writeField2(oprot); err != nil { return err } if err := p.writeField3(oprot); err != nil { return err } } if err := oprot.WriteFieldStop(); err != nil { return thrift.PrependError("write field stop error: ", err) } if err := oprot.WriteStructEnd(); err != nil { return thrift.PrependError("write struct stop error: ", err) } return nil } func (p *PageEncodingStats) writeField1(oprot thrift.TProtocol) (err error) { if err := oprot.WriteFieldBegin("page_type", thrift.I32, 1); err != nil { return thrift.PrependError(fmt.Sprintf("%T write field begin error 1:page_type: ", p), err) } if err := oprot.WriteI32(int32(p.PageType)); err != nil { return thrift.PrependError(fmt.Sprintf("%T.page_type (1) field write error: ", p), err) } if err := oprot.WriteFieldEnd(); err != nil { return thrift.PrependError(fmt.Sprintf("%T write field end error 1:page_type: ", p), err) } return err } func (p *PageEncodingStats) writeField2(oprot thrift.TProtocol) (err error) { if err := oprot.WriteFieldBegin("encoding", thrift.I32, 2); err != nil { return thrift.PrependError(fmt.Sprintf("%T write field begin error 2:encoding: ", p), err) } if err := oprot.WriteI32(int32(p.Encoding)); err != nil { return thrift.PrependError(fmt.Sprintf("%T.encoding (2) field write error: ", p), err) } if err := oprot.WriteFieldEnd(); err != nil { return thrift.PrependError(fmt.Sprintf("%T write field end error 2:encoding: ", p), err) } return err } func (p *PageEncodingStats) writeField3(oprot thrift.TProtocol) (err error) { if err := oprot.WriteFieldBegin("count", thrift.I32, 3); err != nil { return thrift.PrependError(fmt.Sprintf("%T write field begin error 3:count: ", p), err) } if err := oprot.WriteI32(p.Count); err != nil { return thrift.PrependError(fmt.Sprintf("%T.count (3) field write error: ", p), err) } if err := oprot.WriteFieldEnd(); err != nil { return thrift.PrependError(fmt.Sprintf("%T write field end error 3:count: ", p), err) } return err } func (p *PageEncodingStats) String() string { if p == nil { return "" } return fmt.Sprintf("PageEncodingStats(%+v)", *p) } // Description for column metadata // // Attributes: // - Type: Type of this column * // - Encodings: Set of all encodings used for this column. The purpose is to validate // whether we can decode those pages. * // - PathInSchema: Path in schema * // - Codec: Compression codec * // - NumValues: Number of values in this column * // - TotalUncompressedSize: total byte size of all uncompressed pages in this column chunk (including the headers) * // - TotalCompressedSize: total byte size of all compressed pages in this column chunk (including the headers) * // - KeyValueMetadata: Optional key/value metadata * // - DataPageOffset: Byte offset from beginning of file to first data page * // - IndexPageOffset: Byte offset from beginning of file to root index page * // - DictionaryPageOffset: Byte offset from the beginning of file to first (only) dictionary page * // - Statistics: optional statistics for this column chunk // - EncodingStats: Set of all encodings used for pages in this column chunk. // This information can be used to determine if all data pages are // dictionary encoded for example * type ColumnMetaData struct { Type Type `thrift:"type,1,required" db:"type" json:"type"` Encodings []Encoding `thrift:"encodings,2,required" db:"encodings" json:"encodings"` PathInSchema []string `thrift:"path_in_schema,3,required" db:"path_in_schema" json:"path_in_schema"` Codec CompressionCodec `thrift:"codec,4,required" db:"codec" json:"codec"` NumValues int64 `thrift:"num_values,5,required" db:"num_values" json:"num_values"` TotalUncompressedSize int64 `thrift:"total_uncompressed_size,6,required" db:"total_uncompressed_size" json:"total_uncompressed_size"` TotalCompressedSize int64 `thrift:"total_compressed_size,7,required" db:"total_compressed_size" json:"total_compressed_size"` KeyValueMetadata []*KeyValue `thrift:"key_value_metadata,8" db:"key_value_metadata" json:"key_value_metadata,omitempty"` DataPageOffset int64 `thrift:"data_page_offset,9,required" db:"data_page_offset" json:"data_page_offset"` IndexPageOffset *int64 `thrift:"index_page_offset,10" db:"index_page_offset" json:"index_page_offset,omitempty"` DictionaryPageOffset *int64 `thrift:"dictionary_page_offset,11" db:"dictionary_page_offset" json:"dictionary_page_offset,omitempty"` Statistics *Statistics `thrift:"statistics,12" db:"statistics" json:"statistics,omitempty"` EncodingStats []*PageEncodingStats `thrift:"encoding_stats,13" db:"encoding_stats" json:"encoding_stats,omitempty"` } func NewColumnMetaData() *ColumnMetaData { return &ColumnMetaData{} } func (p *ColumnMetaData) GetType() Type { return p.Type } func (p *ColumnMetaData) GetEncodings() []Encoding { return p.Encodings } func (p *ColumnMetaData) GetPathInSchema() []string { return p.PathInSchema } func (p *ColumnMetaData) GetCodec() CompressionCodec { return p.Codec } func (p *ColumnMetaData) GetNumValues() int64 { return p.NumValues } func (p *ColumnMetaData) GetTotalUncompressedSize() int64 { return p.TotalUncompressedSize } func (p *ColumnMetaData) GetTotalCompressedSize() int64 { return p.TotalCompressedSize } var ColumnMetaData_KeyValueMetadata_DEFAULT []*KeyValue func (p *ColumnMetaData) GetKeyValueMetadata() []*KeyValue { return p.KeyValueMetadata } func (p *ColumnMetaData) GetDataPageOffset() int64 { return p.DataPageOffset } var ColumnMetaData_IndexPageOffset_DEFAULT int64 func (p *ColumnMetaData) GetIndexPageOffset() int64 { if !p.IsSetIndexPageOffset() { return ColumnMetaData_IndexPageOffset_DEFAULT } return *p.IndexPageOffset } var ColumnMetaData_DictionaryPageOffset_DEFAULT int64 func (p *ColumnMetaData) GetDictionaryPageOffset() int64 { if !p.IsSetDictionaryPageOffset() { return ColumnMetaData_DictionaryPageOffset_DEFAULT } return *p.DictionaryPageOffset } var ColumnMetaData_Statistics_DEFAULT *Statistics func (p *ColumnMetaData) GetStatistics() *Statistics { if !p.IsSetStatistics() { return ColumnMetaData_Statistics_DEFAULT } return p.Statistics } var ColumnMetaData_EncodingStats_DEFAULT []*PageEncodingStats func (p *ColumnMetaData) GetEncodingStats() []*PageEncodingStats { return p.EncodingStats } func (p *ColumnMetaData) IsSetKeyValueMetadata() bool { return p.KeyValueMetadata != nil } func (p *ColumnMetaData) IsSetIndexPageOffset() bool { return p.IndexPageOffset != nil } func (p *ColumnMetaData) IsSetDictionaryPageOffset() bool { return p.DictionaryPageOffset != nil } func (p *ColumnMetaData) IsSetStatistics() bool { return p.Statistics != nil } func (p *ColumnMetaData) IsSetEncodingStats() bool { return p.EncodingStats != nil } func (p *ColumnMetaData) Read(iprot thrift.TProtocol) error { if _, err := iprot.ReadStructBegin(); err != nil { return thrift.PrependError(fmt.Sprintf("%T read error: ", p), err) } var issetType bool = false var issetEncodings bool = false var issetPathInSchema bool = false var issetCodec bool = false var issetNumValues bool = false var issetTotalUncompressedSize bool = false var issetTotalCompressedSize bool = false var issetDataPageOffset bool = false for { _, fieldTypeId, fieldId, err := iprot.ReadFieldBegin() if err != nil { return thrift.PrependError(fmt.Sprintf("%T field %d read error: ", p, fieldId), err) } if fieldTypeId == thrift.STOP { break } switch fieldId { case 1: if err := p.ReadField1(iprot); err != nil { return err } issetType = true case 2: if err := p.ReadField2(iprot); err != nil { return err } issetEncodings = true case 3: if err := p.ReadField3(iprot); err != nil { return err } issetPathInSchema = true case 4: if err := p.ReadField4(iprot); err != nil { return err } issetCodec = true case 5: if err := p.ReadField5(iprot); err != nil { return err } issetNumValues = true case 6: if err := p.ReadField6(iprot); err != nil { return err } issetTotalUncompressedSize = true case 7: if err := p.ReadField7(iprot); err != nil { return err } issetTotalCompressedSize = true case 8: if err := p.ReadField8(iprot); err != nil { return err } case 9: if err := p.ReadField9(iprot); err != nil { return err } issetDataPageOffset = true case 10: if err := p.ReadField10(iprot); err != nil { return err } case 11: if err := p.ReadField11(iprot); err != nil { return err } case 12: if err := p.ReadField12(iprot); err != nil { return err } case 13: if err := p.ReadField13(iprot); err != nil { return err } default: if err := iprot.Skip(fieldTypeId); err != nil { return err } } if err := iprot.ReadFieldEnd(); err != nil { return err } } if err := iprot.ReadStructEnd(); err != nil { return thrift.PrependError(fmt.Sprintf("%T read struct end error: ", p), err) } if !issetType { return thrift.NewTProtocolExceptionWithType(thrift.INVALID_DATA, fmt.Errorf("Required field Type is not set")) } if !issetEncodings { return thrift.NewTProtocolExceptionWithType(thrift.INVALID_DATA, fmt.Errorf("Required field Encodings is not set")) } if !issetPathInSchema { return thrift.NewTProtocolExceptionWithType(thrift.INVALID_DATA, fmt.Errorf("Required field PathInSchema is not set")) } if !issetCodec { return thrift.NewTProtocolExceptionWithType(thrift.INVALID_DATA, fmt.Errorf("Required field Codec is not set")) } if !issetNumValues { return thrift.NewTProtocolExceptionWithType(thrift.INVALID_DATA, fmt.Errorf("Required field NumValues is not set")) } if !issetTotalUncompressedSize { return thrift.NewTProtocolExceptionWithType(thrift.INVALID_DATA, fmt.Errorf("Required field TotalUncompressedSize is not set")) } if !issetTotalCompressedSize { return thrift.NewTProtocolExceptionWithType(thrift.INVALID_DATA, fmt.Errorf("Required field TotalCompressedSize is not set")) } if !issetDataPageOffset { return thrift.NewTProtocolExceptionWithType(thrift.INVALID_DATA, fmt.Errorf("Required field DataPageOffset is not set")) } return nil } func (p *ColumnMetaData) ReadField1(iprot thrift.TProtocol) error { if v, err := iprot.ReadI32(); err != nil { return thrift.PrependError("error reading field 1: ", err) } else { temp := Type(v) p.Type = temp } return nil } func (p *ColumnMetaData) ReadField2(iprot thrift.TProtocol) error { _, size, err := iprot.ReadListBegin() if err != nil { return thrift.PrependError("error reading list begin: ", err) } tSlice := make([]Encoding, 0, size) p.Encodings = tSlice for i := 0; i < size; i++ { var _elem0 Encoding if v, err := iprot.ReadI32(); err != nil { return thrift.PrependError("error reading field 0: ", err) } else { temp := Encoding(v) _elem0 = temp } p.Encodings = append(p.Encodings, _elem0) } if err := iprot.ReadListEnd(); err != nil { return thrift.PrependError("error reading list end: ", err) } return nil } func (p *ColumnMetaData) ReadField3(iprot thrift.TProtocol) error { _, size, err := iprot.ReadListBegin() if err != nil { return thrift.PrependError("error reading list begin: ", err) } tSlice := make([]string, 0, size) p.PathInSchema = tSlice for i := 0; i < size; i++ { var _elem1 string if v, err := iprot.ReadString(); err != nil { return thrift.PrependError("error reading field 0: ", err) } else { _elem1 = v } p.PathInSchema = append(p.PathInSchema, _elem1) } if err := iprot.ReadListEnd(); err != nil { return thrift.PrependError("error reading list end: ", err) } return nil } func (p *ColumnMetaData) ReadField4(iprot thrift.TProtocol) error { if v, err := iprot.ReadI32(); err != nil { return thrift.PrependError("error reading field 4: ", err) } else { temp := CompressionCodec(v) p.Codec = temp } return nil } func (p *ColumnMetaData) ReadField5(iprot thrift.TProtocol) error { if v, err := iprot.ReadI64(); err != nil { return thrift.PrependError("error reading field 5: ", err) } else { p.NumValues = v } return nil } func (p *ColumnMetaData) ReadField6(iprot thrift.TProtocol) error { if v, err := iprot.ReadI64(); err != nil { return thrift.PrependError("error reading field 6: ", err) } else { p.TotalUncompressedSize = v } return nil } func (p *ColumnMetaData) ReadField7(iprot thrift.TProtocol) error { if v, err := iprot.ReadI64(); err != nil { return thrift.PrependError("error reading field 7: ", err) } else { p.TotalCompressedSize = v } return nil } func (p *ColumnMetaData) ReadField8(iprot thrift.TProtocol) error { _, size, err := iprot.ReadListBegin() if err != nil { return thrift.PrependError("error reading list begin: ", err) } tSlice := make([]*KeyValue, 0, size) p.KeyValueMetadata = tSlice for i := 0; i < size; i++ { _elem2 := &KeyValue{} if err := _elem2.Read(iprot); err != nil { return thrift.PrependError(fmt.Sprintf("%T error reading struct: ", _elem2), err) } p.KeyValueMetadata = append(p.KeyValueMetadata, _elem2) } if err := iprot.ReadListEnd(); err != nil { return thrift.PrependError("error reading list end: ", err) } return nil } func (p *ColumnMetaData) ReadField9(iprot thrift.TProtocol) error { if v, err := iprot.ReadI64(); err != nil { return thrift.PrependError("error reading field 9: ", err) } else { p.DataPageOffset = v } return nil } func (p *ColumnMetaData) ReadField10(iprot thrift.TProtocol) error { if v, err := iprot.ReadI64(); err != nil { return thrift.PrependError("error reading field 10: ", err) } else { p.IndexPageOffset = &v } return nil } func (p *ColumnMetaData) ReadField11(iprot thrift.TProtocol) error { if v, err := iprot.ReadI64(); err != nil { return thrift.PrependError("error reading field 11: ", err) } else { p.DictionaryPageOffset = &v } return nil } func (p *ColumnMetaData) ReadField12(iprot thrift.TProtocol) error { p.Statistics = &Statistics{} if err := p.Statistics.Read(iprot); err != nil { return thrift.PrependError(fmt.Sprintf("%T error reading struct: ", p.Statistics), err) } return nil } func (p *ColumnMetaData) ReadField13(iprot thrift.TProtocol) error { _, size, err := iprot.ReadListBegin() if err != nil { return thrift.PrependError("error reading list begin: ", err) } tSlice := make([]*PageEncodingStats, 0, size) p.EncodingStats = tSlice for i := 0; i < size; i++ { _elem3 := &PageEncodingStats{} if err := _elem3.Read(iprot); err != nil { return thrift.PrependError(fmt.Sprintf("%T error reading struct: ", _elem3), err) } p.EncodingStats = append(p.EncodingStats, _elem3) } if err := iprot.ReadListEnd(); err != nil { return thrift.PrependError("error reading list end: ", err) } return nil } func (p *ColumnMetaData) Write(oprot thrift.TProtocol) error { if err := oprot.WriteStructBegin("ColumnMetaData"); err != nil { return thrift.PrependError(fmt.Sprintf("%T write struct begin error: ", p), err) } if p != nil { if err := p.writeField1(oprot); err != nil { return err } if err := p.writeField2(oprot); err != nil { return err } if err := p.writeField3(oprot); err != nil { return err } if err := p.writeField4(oprot); err != nil { return err } if err := p.writeField5(oprot); err != nil { return err } if err := p.writeField6(oprot); err != nil { return err } if err := p.writeField7(oprot); err != nil { return err } if err := p.writeField8(oprot); err != nil { return err } if err := p.writeField9(oprot); err != nil { return err } if err := p.writeField10(oprot); err != nil { return err } if err := p.writeField11(oprot); err != nil { return err } if err := p.writeField12(oprot); err != nil { return err } if err := p.writeField13(oprot); err != nil { return err } } if err := oprot.WriteFieldStop(); err != nil { return thrift.PrependError("write field stop error: ", err) } if err := oprot.WriteStructEnd(); err != nil { return thrift.PrependError("write struct stop error: ", err) } return nil } func (p *ColumnMetaData) writeField1(oprot thrift.TProtocol) (err error) { if err := oprot.WriteFieldBegin("type", thrift.I32, 1); err != nil { return thrift.PrependError(fmt.Sprintf("%T write field begin error 1:type: ", p), err) } if err := oprot.WriteI32(int32(p.Type)); err != nil { return thrift.PrependError(fmt.Sprintf("%T.type (1) field write error: ", p), err) } if err := oprot.WriteFieldEnd(); err != nil { return thrift.PrependError(fmt.Sprintf("%T write field end error 1:type: ", p), err) } return err } func (p *ColumnMetaData) writeField2(oprot thrift.TProtocol) (err error) { if err := oprot.WriteFieldBegin("encodings", thrift.LIST, 2); err != nil { return thrift.PrependError(fmt.Sprintf("%T write field begin error 2:encodings: ", p), err) } if err := oprot.WriteListBegin(thrift.I32, len(p.Encodings)); err != nil { return thrift.PrependError("error writing list begin: ", err) } for _, v := range p.Encodings { if err := oprot.WriteI32(int32(v)); err != nil { return thrift.PrependError(fmt.Sprintf("%T. (0) field write error: ", p), err) } } if err := oprot.WriteListEnd(); err != nil { return thrift.PrependError("error writing list end: ", err) } if err := oprot.WriteFieldEnd(); err != nil { return thrift.PrependError(fmt.Sprintf("%T write field end error 2:encodings: ", p), err) } return err } func (p *ColumnMetaData) writeField3(oprot thrift.TProtocol) (err error) { if err := oprot.WriteFieldBegin("path_in_schema", thrift.LIST, 3); err != nil { return thrift.PrependError(fmt.Sprintf("%T write field begin error 3:path_in_schema: ", p), err) } if err := oprot.WriteListBegin(thrift.STRING, len(p.PathInSchema)); err != nil { return thrift.PrependError("error writing list begin: ", err) } for _, v := range p.PathInSchema { if err := oprot.WriteString(string(v)); err != nil { return thrift.PrependError(fmt.Sprintf("%T. (0) field write error: ", p), err) } } if err := oprot.WriteListEnd(); err != nil { return thrift.PrependError("error writing list end: ", err) } if err := oprot.WriteFieldEnd(); err != nil { return thrift.PrependError(fmt.Sprintf("%T write field end error 3:path_in_schema: ", p), err) } return err } func (p *ColumnMetaData) writeField4(oprot thrift.TProtocol) (err error) { if err := oprot.WriteFieldBegin("codec", thrift.I32, 4); err != nil { return thrift.PrependError(fmt.Sprintf("%T write field begin error 4:codec: ", p), err) } if err := oprot.WriteI32(int32(p.Codec)); err != nil { return thrift.PrependError(fmt.Sprintf("%T.codec (4) field write error: ", p), err) } if err := oprot.WriteFieldEnd(); err != nil { return thrift.PrependError(fmt.Sprintf("%T write field end error 4:codec: ", p), err) } return err } func (p *ColumnMetaData) writeField5(oprot thrift.TProtocol) (err error) { if err := oprot.WriteFieldBegin("num_values", thrift.I64, 5); err != nil { return thrift.PrependError(fmt.Sprintf("%T write field begin error 5:num_values: ", p), err) } if err := oprot.WriteI64(p.NumValues); err != nil { return thrift.PrependError(fmt.Sprintf("%T.num_values (5) field write error: ", p), err) } if err := oprot.WriteFieldEnd(); err != nil { return thrift.PrependError(fmt.Sprintf("%T write field end error 5:num_values: ", p), err) } return err } func (p *ColumnMetaData) writeField6(oprot thrift.TProtocol) (err error) { if err := oprot.WriteFieldBegin("total_uncompressed_size", thrift.I64, 6); err != nil { return thrift.PrependError(fmt.Sprintf("%T write field begin error 6:total_uncompressed_size: ", p), err) } if err := oprot.WriteI64(p.TotalUncompressedSize); err != nil { return thrift.PrependError(fmt.Sprintf("%T.total_uncompressed_size (6) field write error: ", p), err) } if err := oprot.WriteFieldEnd(); err != nil { return thrift.PrependError(fmt.Sprintf("%T write field end error 6:total_uncompressed_size: ", p), err) } return err } func (p *ColumnMetaData) writeField7(oprot thrift.TProtocol) (err error) { if err := oprot.WriteFieldBegin("total_compressed_size", thrift.I64, 7); err != nil { return thrift.PrependError(fmt.Sprintf("%T write field begin error 7:total_compressed_size: ", p), err) } if err := oprot.WriteI64(p.TotalCompressedSize); err != nil { return thrift.PrependError(fmt.Sprintf("%T.total_compressed_size (7) field write error: ", p), err) } if err := oprot.WriteFieldEnd(); err != nil { return thrift.PrependError(fmt.Sprintf("%T write field end error 7:total_compressed_size: ", p), err) } return err } func (p *ColumnMetaData) writeField8(oprot thrift.TProtocol) (err error) { if p.IsSetKeyValueMetadata() { if err := oprot.WriteFieldBegin("key_value_metadata", thrift.LIST, 8); err != nil { return thrift.PrependError(fmt.Sprintf("%T write field begin error 8:key_value_metadata: ", p), err) } if err := oprot.WriteListBegin(thrift.STRUCT, len(p.KeyValueMetadata)); err != nil { return thrift.PrependError("error writing list begin: ", err) } for _, v := range p.KeyValueMetadata { if err := v.Write(oprot); err != nil { return thrift.PrependError(fmt.Sprintf("%T error writing struct: ", v), err) } } if err := oprot.WriteListEnd(); err != nil { return thrift.PrependError("error writing list end: ", err) } if err := oprot.WriteFieldEnd(); err != nil { return thrift.PrependError(fmt.Sprintf("%T write field end error 8:key_value_metadata: ", p), err) } } return err } func (p *ColumnMetaData) writeField9(oprot thrift.TProtocol) (err error) { if err := oprot.WriteFieldBegin("data_page_offset", thrift.I64, 9); err != nil { return thrift.PrependError(fmt.Sprintf("%T write field begin error 9:data_page_offset: ", p), err) } if err := oprot.WriteI64(p.DataPageOffset); err != nil { return thrift.PrependError(fmt.Sprintf("%T.data_page_offset (9) field write error: ", p), err) } if err := oprot.WriteFieldEnd(); err != nil { return thrift.PrependError(fmt.Sprintf("%T write field end error 9:data_page_offset: ", p), err) } return err } func (p *ColumnMetaData) writeField10(oprot thrift.TProtocol) (err error) { if p.IsSetIndexPageOffset() { if err := oprot.WriteFieldBegin("index_page_offset", thrift.I64, 10); err != nil { return thrift.PrependError(fmt.Sprintf("%T write field begin error 10:index_page_offset: ", p), err) } if err := oprot.WriteI64(*p.IndexPageOffset); err != nil { return thrift.PrependError(fmt.Sprintf("%T.index_page_offset (10) field write error: ", p), err) } if err := oprot.WriteFieldEnd(); err != nil { return thrift.PrependError(fmt.Sprintf("%T write field end error 10:index_page_offset: ", p), err) } } return err } func (p *ColumnMetaData) writeField11(oprot thrift.TProtocol) (err error) { if p.IsSetDictionaryPageOffset() { if err := oprot.WriteFieldBegin("dictionary_page_offset", thrift.I64, 11); err != nil { return thrift.PrependError(fmt.Sprintf("%T write field begin error 11:dictionary_page_offset: ", p), err) } if err := oprot.WriteI64(*p.DictionaryPageOffset); err != nil { return thrift.PrependError(fmt.Sprintf("%T.dictionary_page_offset (11) field write error: ", p), err) } if err := oprot.WriteFieldEnd(); err != nil { return thrift.PrependError(fmt.Sprintf("%T write field end error 11:dictionary_page_offset: ", p), err) } } return err } func (p *ColumnMetaData) writeField12(oprot thrift.TProtocol) (err error) { if p.IsSetStatistics() { if err := oprot.WriteFieldBegin("statistics", thrift.STRUCT, 12); err != nil { return thrift.PrependError(fmt.Sprintf("%T write field begin error 12:statistics: ", p), err) } if err := p.Statistics.Write(oprot); err != nil { return thrift.PrependError(fmt.Sprintf("%T error writing struct: ", p.Statistics), err) } if err := oprot.WriteFieldEnd(); err != nil { return thrift.PrependError(fmt.Sprintf("%T write field end error 12:statistics: ", p), err) } } return err } func (p *ColumnMetaData) writeField13(oprot thrift.TProtocol) (err error) { if p.IsSetEncodingStats() { if err := oprot.WriteFieldBegin("encoding_stats", thrift.LIST, 13); err != nil { return thrift.PrependError(fmt.Sprintf("%T write field begin error 13:encoding_stats: ", p), err) } if err := oprot.WriteListBegin(thrift.STRUCT, len(p.EncodingStats)); err != nil { return thrift.PrependError("error writing list begin: ", err) } for _, v := range p.EncodingStats { if err := v.Write(oprot); err != nil { return thrift.PrependError(fmt.Sprintf("%T error writing struct: ", v), err) } } if err := oprot.WriteListEnd(); err != nil { return thrift.PrependError("error writing list end: ", err) } if err := oprot.WriteFieldEnd(); err != nil { return thrift.PrependError(fmt.Sprintf("%T write field end error 13:encoding_stats: ", p), err) } } return err } func (p *ColumnMetaData) String() string { if p == nil { return "" } return fmt.Sprintf("ColumnMetaData(%+v)", *p) } // Attributes: // - FilePath: File where column data is stored. If not set, assumed to be same file as // metadata. This path is relative to the current file. // // - FileOffset: Byte offset in file_path to the ColumnMetaData * // - MetaData: Column metadata for this chunk. This is the same content as what is at // file_path/file_offset. Having it here has it replicated in the file // metadata. // // - OffsetIndexOffset: File offset of ColumnChunk's OffsetIndex * // - OffsetIndexLength: Size of ColumnChunk's OffsetIndex, in bytes * // - ColumnIndexOffset: File offset of ColumnChunk's ColumnIndex * // - ColumnIndexLength: Size of ColumnChunk's ColumnIndex, in bytes * type ColumnChunk struct { FilePath *string `thrift:"file_path,1" db:"file_path" json:"file_path,omitempty"` FileOffset int64 `thrift:"file_offset,2,required" db:"file_offset" json:"file_offset"` MetaData *ColumnMetaData `thrift:"meta_data,3" db:"meta_data" json:"meta_data,omitempty"` OffsetIndexOffset *int64 `thrift:"offset_index_offset,4" db:"offset_index_offset" json:"offset_index_offset,omitempty"` OffsetIndexLength *int32 `thrift:"offset_index_length,5" db:"offset_index_length" json:"offset_index_length,omitempty"` ColumnIndexOffset *int64 `thrift:"column_index_offset,6" db:"column_index_offset" json:"column_index_offset,omitempty"` ColumnIndexLength *int32 `thrift:"column_index_length,7" db:"column_index_length" json:"column_index_length,omitempty"` } func NewColumnChunk() *ColumnChunk { return &ColumnChunk{} } var ColumnChunk_FilePath_DEFAULT string func (p *ColumnChunk) GetFilePath() string { if !p.IsSetFilePath() { return ColumnChunk_FilePath_DEFAULT } return *p.FilePath } func (p *ColumnChunk) GetFileOffset() int64 { return p.FileOffset } var ColumnChunk_MetaData_DEFAULT *ColumnMetaData func (p *ColumnChunk) GetMetaData() *ColumnMetaData { if !p.IsSetMetaData() { return ColumnChunk_MetaData_DEFAULT } return p.MetaData } var ColumnChunk_OffsetIndexOffset_DEFAULT int64 func (p *ColumnChunk) GetOffsetIndexOffset() int64 { if !p.IsSetOffsetIndexOffset() { return ColumnChunk_OffsetIndexOffset_DEFAULT } return *p.OffsetIndexOffset } var ColumnChunk_OffsetIndexLength_DEFAULT int32 func (p *ColumnChunk) GetOffsetIndexLength() int32 { if !p.IsSetOffsetIndexLength() { return ColumnChunk_OffsetIndexLength_DEFAULT } return *p.OffsetIndexLength } var ColumnChunk_ColumnIndexOffset_DEFAULT int64 func (p *ColumnChunk) GetColumnIndexOffset() int64 { if !p.IsSetColumnIndexOffset() { return ColumnChunk_ColumnIndexOffset_DEFAULT } return *p.ColumnIndexOffset } var ColumnChunk_ColumnIndexLength_DEFAULT int32 func (p *ColumnChunk) GetColumnIndexLength() int32 { if !p.IsSetColumnIndexLength() { return ColumnChunk_ColumnIndexLength_DEFAULT } return *p.ColumnIndexLength } func (p *ColumnChunk) IsSetFilePath() bool { return p.FilePath != nil } func (p *ColumnChunk) IsSetMetaData() bool { return p.MetaData != nil } func (p *ColumnChunk) IsSetOffsetIndexOffset() bool { return p.OffsetIndexOffset != nil } func (p *ColumnChunk) IsSetOffsetIndexLength() bool { return p.OffsetIndexLength != nil } func (p *ColumnChunk) IsSetColumnIndexOffset() bool { return p.ColumnIndexOffset != nil } func (p *ColumnChunk) IsSetColumnIndexLength() bool { return p.ColumnIndexLength != nil } func (p *ColumnChunk) Read(iprot thrift.TProtocol) error { if _, err := iprot.ReadStructBegin(); err != nil { return thrift.PrependError(fmt.Sprintf("%T read error: ", p), err) } var issetFileOffset bool = false for { _, fieldTypeId, fieldId, err := iprot.ReadFieldBegin() if err != nil { return thrift.PrependError(fmt.Sprintf("%T field %d read error: ", p, fieldId), err) } if fieldTypeId == thrift.STOP { break } switch fieldId { case 1: if err := p.ReadField1(iprot); err != nil { return err } case 2: if err := p.ReadField2(iprot); err != nil { return err } issetFileOffset = true case 3: if err := p.ReadField3(iprot); err != nil { return err } case 4: if err := p.ReadField4(iprot); err != nil { return err } case 5: if err := p.ReadField5(iprot); err != nil { return err } case 6: if err := p.ReadField6(iprot); err != nil { return err } case 7: if err := p.ReadField7(iprot); err != nil { return err } default: if err := iprot.Skip(fieldTypeId); err != nil { return err } } if err := iprot.ReadFieldEnd(); err != nil { return err } } if err := iprot.ReadStructEnd(); err != nil { return thrift.PrependError(fmt.Sprintf("%T read struct end error: ", p), err) } if !issetFileOffset { return thrift.NewTProtocolExceptionWithType(thrift.INVALID_DATA, fmt.Errorf("Required field FileOffset is not set")) } return nil } func (p *ColumnChunk) ReadField1(iprot thrift.TProtocol) error { if v, err := iprot.ReadString(); err != nil { return thrift.PrependError("error reading field 1: ", err) } else { p.FilePath = &v } return nil } func (p *ColumnChunk) ReadField2(iprot thrift.TProtocol) error { if v, err := iprot.ReadI64(); err != nil { return thrift.PrependError("error reading field 2: ", err) } else { p.FileOffset = v } return nil } func (p *ColumnChunk) ReadField3(iprot thrift.TProtocol) error { p.MetaData = &ColumnMetaData{} if err := p.MetaData.Read(iprot); err != nil { return thrift.PrependError(fmt.Sprintf("%T error reading struct: ", p.MetaData), err) } return nil } func (p *ColumnChunk) ReadField4(iprot thrift.TProtocol) error { if v, err := iprot.ReadI64(); err != nil { return thrift.PrependError("error reading field 4: ", err) } else { p.OffsetIndexOffset = &v } return nil } func (p *ColumnChunk) ReadField5(iprot thrift.TProtocol) error { if v, err := iprot.ReadI32(); err != nil { return thrift.PrependError("error reading field 5: ", err) } else { p.OffsetIndexLength = &v } return nil } func (p *ColumnChunk) ReadField6(iprot thrift.TProtocol) error { if v, err := iprot.ReadI64(); err != nil { return thrift.PrependError("error reading field 6: ", err) } else { p.ColumnIndexOffset = &v } return nil } func (p *ColumnChunk) ReadField7(iprot thrift.TProtocol) error { if v, err := iprot.ReadI32(); err != nil { return thrift.PrependError("error reading field 7: ", err) } else { p.ColumnIndexLength = &v } return nil } func (p *ColumnChunk) Write(oprot thrift.TProtocol) error { if err := oprot.WriteStructBegin("ColumnChunk"); err != nil { return thrift.PrependError(fmt.Sprintf("%T write struct begin error: ", p), err) } if p != nil { if err := p.writeField1(oprot); err != nil { return err } if err := p.writeField2(oprot); err != nil { return err } if err := p.writeField3(oprot); err != nil { return err } if err := p.writeField4(oprot); err != nil { return err } if err := p.writeField5(oprot); err != nil { return err } if err := p.writeField6(oprot); err != nil { return err } if err := p.writeField7(oprot); err != nil { return err } } if err := oprot.WriteFieldStop(); err != nil { return thrift.PrependError("write field stop error: ", err) } if err := oprot.WriteStructEnd(); err != nil { return thrift.PrependError("write struct stop error: ", err) } return nil } func (p *ColumnChunk) writeField1(oprot thrift.TProtocol) (err error) { if p.IsSetFilePath() { if err := oprot.WriteFieldBegin("file_path", thrift.STRING, 1); err != nil { return thrift.PrependError(fmt.Sprintf("%T write field begin error 1:file_path: ", p), err) } if err := oprot.WriteString(string(*p.FilePath)); err != nil { return thrift.PrependError(fmt.Sprintf("%T.file_path (1) field write error: ", p), err) } if err := oprot.WriteFieldEnd(); err != nil { return thrift.PrependError(fmt.Sprintf("%T write field end error 1:file_path: ", p), err) } } return err } func (p *ColumnChunk) writeField2(oprot thrift.TProtocol) (err error) { if err := oprot.WriteFieldBegin("file_offset", thrift.I64, 2); err != nil { return thrift.PrependError(fmt.Sprintf("%T write field begin error 2:file_offset: ", p), err) } if err := oprot.WriteI64(p.FileOffset); err != nil { return thrift.PrependError(fmt.Sprintf("%T.file_offset (2) field write error: ", p), err) } if err := oprot.WriteFieldEnd(); err != nil { return thrift.PrependError(fmt.Sprintf("%T write field end error 2:file_offset: ", p), err) } return err } func (p *ColumnChunk) writeField3(oprot thrift.TProtocol) (err error) { if p.IsSetMetaData() { if err := oprot.WriteFieldBegin("meta_data", thrift.STRUCT, 3); err != nil { return thrift.PrependError(fmt.Sprintf("%T write field begin error 3:meta_data: ", p), err) } if err := p.MetaData.Write(oprot); err != nil { return thrift.PrependError(fmt.Sprintf("%T error writing struct: ", p.MetaData), err) } if err := oprot.WriteFieldEnd(); err != nil { return thrift.PrependError(fmt.Sprintf("%T write field end error 3:meta_data: ", p), err) } } return err } func (p *ColumnChunk) writeField4(oprot thrift.TProtocol) (err error) { if p.IsSetOffsetIndexOffset() { if err := oprot.WriteFieldBegin("offset_index_offset", thrift.I64, 4); err != nil { return thrift.PrependError(fmt.Sprintf("%T write field begin error 4:offset_index_offset: ", p), err) } if err := oprot.WriteI64(*p.OffsetIndexOffset); err != nil { return thrift.PrependError(fmt.Sprintf("%T.offset_index_offset (4) field write error: ", p), err) } if err := oprot.WriteFieldEnd(); err != nil { return thrift.PrependError(fmt.Sprintf("%T write field end error 4:offset_index_offset: ", p), err) } } return err } func (p *ColumnChunk) writeField5(oprot thrift.TProtocol) (err error) { if p.IsSetOffsetIndexLength() { if err := oprot.WriteFieldBegin("offset_index_length", thrift.I32, 5); err != nil { return thrift.PrependError(fmt.Sprintf("%T write field begin error 5:offset_index_length: ", p), err) } if err := oprot.WriteI32(*p.OffsetIndexLength); err != nil { return thrift.PrependError(fmt.Sprintf("%T.offset_index_length (5) field write error: ", p), err) } if err := oprot.WriteFieldEnd(); err != nil { return thrift.PrependError(fmt.Sprintf("%T write field end error 5:offset_index_length: ", p), err) } } return err } func (p *ColumnChunk) writeField6(oprot thrift.TProtocol) (err error) { if p.IsSetColumnIndexOffset() { if err := oprot.WriteFieldBegin("column_index_offset", thrift.I64, 6); err != nil { return thrift.PrependError(fmt.Sprintf("%T write field begin error 6:column_index_offset: ", p), err) } if err := oprot.WriteI64(*p.ColumnIndexOffset); err != nil { return thrift.PrependError(fmt.Sprintf("%T.column_index_offset (6) field write error: ", p), err) } if err := oprot.WriteFieldEnd(); err != nil { return thrift.PrependError(fmt.Sprintf("%T write field end error 6:column_index_offset: ", p), err) } } return err } func (p *ColumnChunk) writeField7(oprot thrift.TProtocol) (err error) { if p.IsSetColumnIndexLength() { if err := oprot.WriteFieldBegin("column_index_length", thrift.I32, 7); err != nil { return thrift.PrependError(fmt.Sprintf("%T write field begin error 7:column_index_length: ", p), err) } if err := oprot.WriteI32(*p.ColumnIndexLength); err != nil { return thrift.PrependError(fmt.Sprintf("%T.column_index_length (7) field write error: ", p), err) } if err := oprot.WriteFieldEnd(); err != nil { return thrift.PrependError(fmt.Sprintf("%T write field end error 7:column_index_length: ", p), err) } } return err } func (p *ColumnChunk) String() string { if p == nil { return "" } return fmt.Sprintf("ColumnChunk(%+v)", *p) } // Attributes: // - Columns: Metadata for each column chunk in this row group. // This list must have the same order as the SchemaElement list in FileMetaData. // // - TotalByteSize: Total byte size of all the uncompressed column data in this row group * // - NumRows: Number of rows in this row group * // - SortingColumns: If set, specifies a sort ordering of the rows in this RowGroup. // The sorting columns can be a subset of all the columns. type RowGroup struct { Columns []*ColumnChunk `thrift:"columns,1,required" db:"columns" json:"columns"` TotalByteSize int64 `thrift:"total_byte_size,2,required" db:"total_byte_size" json:"total_byte_size"` NumRows int64 `thrift:"num_rows,3,required" db:"num_rows" json:"num_rows"` SortingColumns []*SortingColumn `thrift:"sorting_columns,4" db:"sorting_columns" json:"sorting_columns,omitempty"` } func NewRowGroup() *RowGroup { return &RowGroup{} } func (p *RowGroup) GetColumns() []*ColumnChunk { return p.Columns } func (p *RowGroup) GetTotalByteSize() int64 { return p.TotalByteSize } func (p *RowGroup) GetNumRows() int64 { return p.NumRows } var RowGroup_SortingColumns_DEFAULT []*SortingColumn func (p *RowGroup) GetSortingColumns() []*SortingColumn { return p.SortingColumns } func (p *RowGroup) IsSetSortingColumns() bool { return p.SortingColumns != nil } func (p *RowGroup) Read(iprot thrift.TProtocol) error { if _, err := iprot.ReadStructBegin(); err != nil { return thrift.PrependError(fmt.Sprintf("%T read error: ", p), err) } var issetColumns bool = false var issetTotalByteSize bool = false var issetNumRows bool = false for { _, fieldTypeId, fieldId, err := iprot.ReadFieldBegin() if err != nil { return thrift.PrependError(fmt.Sprintf("%T field %d read error: ", p, fieldId), err) } if fieldTypeId == thrift.STOP { break } switch fieldId { case 1: if err := p.ReadField1(iprot); err != nil { return err } issetColumns = true case 2: if err := p.ReadField2(iprot); err != nil { return err } issetTotalByteSize = true case 3: if err := p.ReadField3(iprot); err != nil { return err } issetNumRows = true case 4: if err := p.ReadField4(iprot); err != nil { return err } default: if err := iprot.Skip(fieldTypeId); err != nil { return err } } if err := iprot.ReadFieldEnd(); err != nil { return err } } if err := iprot.ReadStructEnd(); err != nil { return thrift.PrependError(fmt.Sprintf("%T read struct end error: ", p), err) } if !issetColumns { return thrift.NewTProtocolExceptionWithType(thrift.INVALID_DATA, fmt.Errorf("Required field Columns is not set")) } if !issetTotalByteSize { return thrift.NewTProtocolExceptionWithType(thrift.INVALID_DATA, fmt.Errorf("Required field TotalByteSize is not set")) } if !issetNumRows { return thrift.NewTProtocolExceptionWithType(thrift.INVALID_DATA, fmt.Errorf("Required field NumRows is not set")) } return nil } func (p *RowGroup) ReadField1(iprot thrift.TProtocol) error { _, size, err := iprot.ReadListBegin() if err != nil { return thrift.PrependError("error reading list begin: ", err) } tSlice := make([]*ColumnChunk, 0, size) p.Columns = tSlice for i := 0; i < size; i++ { _elem4 := &ColumnChunk{} if err := _elem4.Read(iprot); err != nil { return thrift.PrependError(fmt.Sprintf("%T error reading struct: ", _elem4), err) } p.Columns = append(p.Columns, _elem4) } if err := iprot.ReadListEnd(); err != nil { return thrift.PrependError("error reading list end: ", err) } return nil } func (p *RowGroup) ReadField2(iprot thrift.TProtocol) error { if v, err := iprot.ReadI64(); err != nil { return thrift.PrependError("error reading field 2: ", err) } else { p.TotalByteSize = v } return nil } func (p *RowGroup) ReadField3(iprot thrift.TProtocol) error { if v, err := iprot.ReadI64(); err != nil { return thrift.PrependError("error reading field 3: ", err) } else { p.NumRows = v } return nil } func (p *RowGroup) ReadField4(iprot thrift.TProtocol) error { _, size, err := iprot.ReadListBegin() if err != nil { return thrift.PrependError("error reading list begin: ", err) } tSlice := make([]*SortingColumn, 0, size) p.SortingColumns = tSlice for i := 0; i < size; i++ { _elem5 := &SortingColumn{} if err := _elem5.Read(iprot); err != nil { return thrift.PrependError(fmt.Sprintf("%T error reading struct: ", _elem5), err) } p.SortingColumns = append(p.SortingColumns, _elem5) } if err := iprot.ReadListEnd(); err != nil { return thrift.PrependError("error reading list end: ", err) } return nil } func (p *RowGroup) Write(oprot thrift.TProtocol) error { if err := oprot.WriteStructBegin("RowGroup"); err != nil { return thrift.PrependError(fmt.Sprintf("%T write struct begin error: ", p), err) } if p != nil { if err := p.writeField1(oprot); err != nil { return err } if err := p.writeField2(oprot); err != nil { return err } if err := p.writeField3(oprot); err != nil { return err } if err := p.writeField4(oprot); err != nil { return err } } if err := oprot.WriteFieldStop(); err != nil { return thrift.PrependError("write field stop error: ", err) } if err := oprot.WriteStructEnd(); err != nil { return thrift.PrependError("write struct stop error: ", err) } return nil } func (p *RowGroup) writeField1(oprot thrift.TProtocol) (err error) { if err := oprot.WriteFieldBegin("columns", thrift.LIST, 1); err != nil { return thrift.PrependError(fmt.Sprintf("%T write field begin error 1:columns: ", p), err) } if err := oprot.WriteListBegin(thrift.STRUCT, len(p.Columns)); err != nil { return thrift.PrependError("error writing list begin: ", err) } for _, v := range p.Columns { if err := v.Write(oprot); err != nil { return thrift.PrependError(fmt.Sprintf("%T error writing struct: ", v), err) } } if err := oprot.WriteListEnd(); err != nil { return thrift.PrependError("error writing list end: ", err) } if err := oprot.WriteFieldEnd(); err != nil { return thrift.PrependError(fmt.Sprintf("%T write field end error 1:columns: ", p), err) } return err } func (p *RowGroup) writeField2(oprot thrift.TProtocol) (err error) { if err := oprot.WriteFieldBegin("total_byte_size", thrift.I64, 2); err != nil { return thrift.PrependError(fmt.Sprintf("%T write field begin error 2:total_byte_size: ", p), err) } if err := oprot.WriteI64(p.TotalByteSize); err != nil { return thrift.PrependError(fmt.Sprintf("%T.total_byte_size (2) field write error: ", p), err) } if err := oprot.WriteFieldEnd(); err != nil { return thrift.PrependError(fmt.Sprintf("%T write field end error 2:total_byte_size: ", p), err) } return err } func (p *RowGroup) writeField3(oprot thrift.TProtocol) (err error) { if err := oprot.WriteFieldBegin("num_rows", thrift.I64, 3); err != nil { return thrift.PrependError(fmt.Sprintf("%T write field begin error 3:num_rows: ", p), err) } if err := oprot.WriteI64(p.NumRows); err != nil { return thrift.PrependError(fmt.Sprintf("%T.num_rows (3) field write error: ", p), err) } if err := oprot.WriteFieldEnd(); err != nil { return thrift.PrependError(fmt.Sprintf("%T write field end error 3:num_rows: ", p), err) } return err } func (p *RowGroup) writeField4(oprot thrift.TProtocol) (err error) { if p.IsSetSortingColumns() { if err := oprot.WriteFieldBegin("sorting_columns", thrift.LIST, 4); err != nil { return thrift.PrependError(fmt.Sprintf("%T write field begin error 4:sorting_columns: ", p), err) } if err := oprot.WriteListBegin(thrift.STRUCT, len(p.SortingColumns)); err != nil { return thrift.PrependError("error writing list begin: ", err) } for _, v := range p.SortingColumns { if err := v.Write(oprot); err != nil { return thrift.PrependError(fmt.Sprintf("%T error writing struct: ", v), err) } } if err := oprot.WriteListEnd(); err != nil { return thrift.PrependError("error writing list end: ", err) } if err := oprot.WriteFieldEnd(); err != nil { return thrift.PrependError(fmt.Sprintf("%T write field end error 4:sorting_columns: ", p), err) } } return err } func (p *RowGroup) String() string { if p == nil { return "" } return fmt.Sprintf("RowGroup(%+v)", *p) } // Empty struct to signal the order defined by the physical or logical type type TypeDefinedOrder struct { } func NewTypeDefinedOrder() *TypeDefinedOrder { return &TypeDefinedOrder{} } func (p *TypeDefinedOrder) Read(iprot thrift.TProtocol) error { if _, err := iprot.ReadStructBegin(); err != nil { return thrift.PrependError(fmt.Sprintf("%T read error: ", p), err) } for { _, fieldTypeId, fieldId, err := iprot.ReadFieldBegin() if err != nil { return thrift.PrependError(fmt.Sprintf("%T field %d read error: ", p, fieldId), err) } if fieldTypeId == thrift.STOP { break } if err := iprot.Skip(fieldTypeId); err != nil { return err } if err := iprot.ReadFieldEnd(); err != nil { return err } } if err := iprot.ReadStructEnd(); err != nil { return thrift.PrependError(fmt.Sprintf("%T read struct end error: ", p), err) } return nil } func (p *TypeDefinedOrder) Write(oprot thrift.TProtocol) error { if err := oprot.WriteStructBegin("TypeDefinedOrder"); err != nil { return thrift.PrependError(fmt.Sprintf("%T write struct begin error: ", p), err) } if p != nil { } if err := oprot.WriteFieldStop(); err != nil { return thrift.PrependError("write field stop error: ", err) } if err := oprot.WriteStructEnd(); err != nil { return thrift.PrependError("write struct stop error: ", err) } return nil } func (p *TypeDefinedOrder) String() string { if p == nil { return "" } return fmt.Sprintf("TypeDefinedOrder(%+v)", *p) } // Union to specify the order used for the min_value and max_value fields for a // column. This union takes the role of an enhanced enum that allows rich // elements (which will be needed for a collation-based ordering in the future). // // Possible values are: // * TypeDefinedOrder - the column uses the order defined by its logical or // physical type (if there is no logical type). // // If the reader does not support the value of this union, min and max stats // for this column should be ignored. // // Attributes: // - TYPE_ORDER: The sort orders for logical types are: // UTF8 - unsigned byte-wise comparison // INT8 - signed comparison // INT16 - signed comparison // INT32 - signed comparison // INT64 - signed comparison // UINT8 - unsigned comparison // UINT16 - unsigned comparison // UINT32 - unsigned comparison // UINT64 - unsigned comparison // DECIMAL - signed comparison of the represented value // DATE - signed comparison // TIME_MILLIS - signed comparison // TIME_MICROS - signed comparison // TIMESTAMP_MILLIS - signed comparison // TIMESTAMP_MICROS - signed comparison // INTERVAL - unsigned comparison // JSON - unsigned byte-wise comparison // BSON - unsigned byte-wise comparison // ENUM - unsigned byte-wise comparison // LIST - undefined // MAP - undefined // // In the absence of logical types, the sort order is determined by the physical type: // BOOLEAN - false, true // INT32 - signed comparison // INT64 - signed comparison // INT96 (only used for legacy timestamps) - undefined // FLOAT - signed comparison of the represented value (*) // DOUBLE - signed comparison of the represented value (*) // BYTE_ARRAY - unsigned byte-wise comparison // FIXED_LEN_BYTE_ARRAY - unsigned byte-wise comparison // // (*) Because the sorting order is not specified properly for floating // point values (relations vs. total ordering) the following // compatibility rules should be applied when reading statistics: // - If the min is a NaN, it should be ignored. // - If the max is a NaN, it should be ignored. // - If the min is +0, the row group may contain -0 values as well. // - If the max is -0, the row group may contain +0 values as well. // - When looking for NaN values, min and max should be ignored. type ColumnOrder struct { TYPE_ORDER *TypeDefinedOrder `thrift:"TYPE_ORDER,1" db:"TYPE_ORDER" json:"TYPE_ORDER,omitempty"` } func NewColumnOrder() *ColumnOrder { return &ColumnOrder{} } var ColumnOrder_TYPE_ORDER_DEFAULT *TypeDefinedOrder func (p *ColumnOrder) GetTYPE_ORDER() *TypeDefinedOrder { if !p.IsSetTYPE_ORDER() { return ColumnOrder_TYPE_ORDER_DEFAULT } return p.TYPE_ORDER } func (p *ColumnOrder) CountSetFieldsColumnOrder() int { count := 0 if p.IsSetTYPE_ORDER() { count++ } return count } func (p *ColumnOrder) IsSetTYPE_ORDER() bool { return p.TYPE_ORDER != nil } func (p *ColumnOrder) Read(iprot thrift.TProtocol) error { if _, err := iprot.ReadStructBegin(); err != nil { return thrift.PrependError(fmt.Sprintf("%T read error: ", p), err) } for { _, fieldTypeId, fieldId, err := iprot.ReadFieldBegin() if err != nil { return thrift.PrependError(fmt.Sprintf("%T field %d read error: ", p, fieldId), err) } if fieldTypeId == thrift.STOP { break } switch fieldId { case 1: if err := p.ReadField1(iprot); err != nil { return err } default: if err := iprot.Skip(fieldTypeId); err != nil { return err } } if err := iprot.ReadFieldEnd(); err != nil { return err } } if err := iprot.ReadStructEnd(); err != nil { return thrift.PrependError(fmt.Sprintf("%T read struct end error: ", p), err) } return nil } func (p *ColumnOrder) ReadField1(iprot thrift.TProtocol) error { p.TYPE_ORDER = &TypeDefinedOrder{} if err := p.TYPE_ORDER.Read(iprot); err != nil { return thrift.PrependError(fmt.Sprintf("%T error reading struct: ", p.TYPE_ORDER), err) } return nil } func (p *ColumnOrder) Write(oprot thrift.TProtocol) error { if c := p.CountSetFieldsColumnOrder(); c != 1 { return fmt.Errorf("%T write union: exactly one field must be set (%d set).", p, c) } if err := oprot.WriteStructBegin("ColumnOrder"); err != nil { return thrift.PrependError(fmt.Sprintf("%T write struct begin error: ", p), err) } if p != nil { if err := p.writeField1(oprot); err != nil { return err } } if err := oprot.WriteFieldStop(); err != nil { return thrift.PrependError("write field stop error: ", err) } if err := oprot.WriteStructEnd(); err != nil { return thrift.PrependError("write struct stop error: ", err) } return nil } func (p *ColumnOrder) writeField1(oprot thrift.TProtocol) (err error) { if p.IsSetTYPE_ORDER() { if err := oprot.WriteFieldBegin("TYPE_ORDER", thrift.STRUCT, 1); err != nil { return thrift.PrependError(fmt.Sprintf("%T write field begin error 1:TYPE_ORDER: ", p), err) } if err := p.TYPE_ORDER.Write(oprot); err != nil { return thrift.PrependError(fmt.Sprintf("%T error writing struct: ", p.TYPE_ORDER), err) } if err := oprot.WriteFieldEnd(); err != nil { return thrift.PrependError(fmt.Sprintf("%T write field end error 1:TYPE_ORDER: ", p), err) } } return err } func (p *ColumnOrder) String() string { if p == nil { return "" } return fmt.Sprintf("ColumnOrder(%+v)", *p) } // Attributes: // - Offset: Offset of the page in the file * // - CompressedPageSize: Size of the page, including header. Sum of compressed_page_size and header // length // - FirstRowIndex: Index within the RowGroup of the first row of the page; this means pages // change on record boundaries (r = 0). type PageLocation struct { Offset int64 `thrift:"offset,1,required" db:"offset" json:"offset"` CompressedPageSize int32 `thrift:"compressed_page_size,2,required" db:"compressed_page_size" json:"compressed_page_size"` FirstRowIndex int64 `thrift:"first_row_index,3,required" db:"first_row_index" json:"first_row_index"` } func NewPageLocation() *PageLocation { return &PageLocation{} } func (p *PageLocation) GetOffset() int64 { return p.Offset } func (p *PageLocation) GetCompressedPageSize() int32 { return p.CompressedPageSize } func (p *PageLocation) GetFirstRowIndex() int64 { return p.FirstRowIndex } func (p *PageLocation) Read(iprot thrift.TProtocol) error { if _, err := iprot.ReadStructBegin(); err != nil { return thrift.PrependError(fmt.Sprintf("%T read error: ", p), err) } var issetOffset bool = false var issetCompressedPageSize bool = false var issetFirstRowIndex bool = false for { _, fieldTypeId, fieldId, err := iprot.ReadFieldBegin() if err != nil { return thrift.PrependError(fmt.Sprintf("%T field %d read error: ", p, fieldId), err) } if fieldTypeId == thrift.STOP { break } switch fieldId { case 1: if err := p.ReadField1(iprot); err != nil { return err } issetOffset = true case 2: if err := p.ReadField2(iprot); err != nil { return err } issetCompressedPageSize = true case 3: if err := p.ReadField3(iprot); err != nil { return err } issetFirstRowIndex = true default: if err := iprot.Skip(fieldTypeId); err != nil { return err } } if err := iprot.ReadFieldEnd(); err != nil { return err } } if err := iprot.ReadStructEnd(); err != nil { return thrift.PrependError(fmt.Sprintf("%T read struct end error: ", p), err) } if !issetOffset { return thrift.NewTProtocolExceptionWithType(thrift.INVALID_DATA, fmt.Errorf("Required field Offset is not set")) } if !issetCompressedPageSize { return thrift.NewTProtocolExceptionWithType(thrift.INVALID_DATA, fmt.Errorf("Required field CompressedPageSize is not set")) } if !issetFirstRowIndex { return thrift.NewTProtocolExceptionWithType(thrift.INVALID_DATA, fmt.Errorf("Required field FirstRowIndex is not set")) } return nil } func (p *PageLocation) ReadField1(iprot thrift.TProtocol) error { if v, err := iprot.ReadI64(); err != nil { return thrift.PrependError("error reading field 1: ", err) } else { p.Offset = v } return nil } func (p *PageLocation) ReadField2(iprot thrift.TProtocol) error { if v, err := iprot.ReadI32(); err != nil { return thrift.PrependError("error reading field 2: ", err) } else { p.CompressedPageSize = v } return nil } func (p *PageLocation) ReadField3(iprot thrift.TProtocol) error { if v, err := iprot.ReadI64(); err != nil { return thrift.PrependError("error reading field 3: ", err) } else { p.FirstRowIndex = v } return nil } func (p *PageLocation) Write(oprot thrift.TProtocol) error { if err := oprot.WriteStructBegin("PageLocation"); err != nil { return thrift.PrependError(fmt.Sprintf("%T write struct begin error: ", p), err) } if p != nil { if err := p.writeField1(oprot); err != nil { return err } if err := p.writeField2(oprot); err != nil { return err } if err := p.writeField3(oprot); err != nil { return err } } if err := oprot.WriteFieldStop(); err != nil { return thrift.PrependError("write field stop error: ", err) } if err := oprot.WriteStructEnd(); err != nil { return thrift.PrependError("write struct stop error: ", err) } return nil } func (p *PageLocation) writeField1(oprot thrift.TProtocol) (err error) { if err := oprot.WriteFieldBegin("offset", thrift.I64, 1); err != nil { return thrift.PrependError(fmt.Sprintf("%T write field begin error 1:offset: ", p), err) } if err := oprot.WriteI64(p.Offset); err != nil { return thrift.PrependError(fmt.Sprintf("%T.offset (1) field write error: ", p), err) } if err := oprot.WriteFieldEnd(); err != nil { return thrift.PrependError(fmt.Sprintf("%T write field end error 1:offset: ", p), err) } return err } func (p *PageLocation) writeField2(oprot thrift.TProtocol) (err error) { if err := oprot.WriteFieldBegin("compressed_page_size", thrift.I32, 2); err != nil { return thrift.PrependError(fmt.Sprintf("%T write field begin error 2:compressed_page_size: ", p), err) } if err := oprot.WriteI32(p.CompressedPageSize); err != nil { return thrift.PrependError(fmt.Sprintf("%T.compressed_page_size (2) field write error: ", p), err) } if err := oprot.WriteFieldEnd(); err != nil { return thrift.PrependError(fmt.Sprintf("%T write field end error 2:compressed_page_size: ", p), err) } return err } func (p *PageLocation) writeField3(oprot thrift.TProtocol) (err error) { if err := oprot.WriteFieldBegin("first_row_index", thrift.I64, 3); err != nil { return thrift.PrependError(fmt.Sprintf("%T write field begin error 3:first_row_index: ", p), err) } if err := oprot.WriteI64(p.FirstRowIndex); err != nil { return thrift.PrependError(fmt.Sprintf("%T.first_row_index (3) field write error: ", p), err) } if err := oprot.WriteFieldEnd(); err != nil { return thrift.PrependError(fmt.Sprintf("%T write field end error 3:first_row_index: ", p), err) } return err } func (p *PageLocation) String() string { if p == nil { return "" } return fmt.Sprintf("PageLocation(%+v)", *p) } // Attributes: // - PageLocations: PageLocations, ordered by increasing PageLocation.offset. It is required // that page_locations[i].first_row_index < page_locations[i+1].first_row_index. type OffsetIndex struct { PageLocations []*PageLocation `thrift:"page_locations,1,required" db:"page_locations" json:"page_locations"` } func NewOffsetIndex() *OffsetIndex { return &OffsetIndex{} } func (p *OffsetIndex) GetPageLocations() []*PageLocation { return p.PageLocations } func (p *OffsetIndex) Read(iprot thrift.TProtocol) error { if _, err := iprot.ReadStructBegin(); err != nil { return thrift.PrependError(fmt.Sprintf("%T read error: ", p), err) } var issetPageLocations bool = false for { _, fieldTypeId, fieldId, err := iprot.ReadFieldBegin() if err != nil { return thrift.PrependError(fmt.Sprintf("%T field %d read error: ", p, fieldId), err) } if fieldTypeId == thrift.STOP { break } switch fieldId { case 1: if err := p.ReadField1(iprot); err != nil { return err } issetPageLocations = true default: if err := iprot.Skip(fieldTypeId); err != nil { return err } } if err := iprot.ReadFieldEnd(); err != nil { return err } } if err := iprot.ReadStructEnd(); err != nil { return thrift.PrependError(fmt.Sprintf("%T read struct end error: ", p), err) } if !issetPageLocations { return thrift.NewTProtocolExceptionWithType(thrift.INVALID_DATA, fmt.Errorf("Required field PageLocations is not set")) } return nil } func (p *OffsetIndex) ReadField1(iprot thrift.TProtocol) error { _, size, err := iprot.ReadListBegin() if err != nil { return thrift.PrependError("error reading list begin: ", err) } tSlice := make([]*PageLocation, 0, size) p.PageLocations = tSlice for i := 0; i < size; i++ { _elem6 := &PageLocation{} if err := _elem6.Read(iprot); err != nil { return thrift.PrependError(fmt.Sprintf("%T error reading struct: ", _elem6), err) } p.PageLocations = append(p.PageLocations, _elem6) } if err := iprot.ReadListEnd(); err != nil { return thrift.PrependError("error reading list end: ", err) } return nil } func (p *OffsetIndex) Write(oprot thrift.TProtocol) error { if err := oprot.WriteStructBegin("OffsetIndex"); err != nil { return thrift.PrependError(fmt.Sprintf("%T write struct begin error: ", p), err) } if p != nil { if err := p.writeField1(oprot); err != nil { return err } } if err := oprot.WriteFieldStop(); err != nil { return thrift.PrependError("write field stop error: ", err) } if err := oprot.WriteStructEnd(); err != nil { return thrift.PrependError("write struct stop error: ", err) } return nil } func (p *OffsetIndex) writeField1(oprot thrift.TProtocol) (err error) { if err := oprot.WriteFieldBegin("page_locations", thrift.LIST, 1); err != nil { return thrift.PrependError(fmt.Sprintf("%T write field begin error 1:page_locations: ", p), err) } if err := oprot.WriteListBegin(thrift.STRUCT, len(p.PageLocations)); err != nil { return thrift.PrependError("error writing list begin: ", err) } for _, v := range p.PageLocations { if err := v.Write(oprot); err != nil { return thrift.PrependError(fmt.Sprintf("%T error writing struct: ", v), err) } } if err := oprot.WriteListEnd(); err != nil { return thrift.PrependError("error writing list end: ", err) } if err := oprot.WriteFieldEnd(); err != nil { return thrift.PrependError(fmt.Sprintf("%T write field end error 1:page_locations: ", p), err) } return err } func (p *OffsetIndex) String() string { if p == nil { return "" } return fmt.Sprintf("OffsetIndex(%+v)", *p) } // Description for ColumnIndex. // Each [i] refers to the page at OffsetIndex.page_locations[i] // // Attributes: // - NullPages: A list of Boolean values to determine the validity of the corresponding // min and max values. If true, a page contains only null values, and writers // have to set the corresponding entries in min_values and max_values to // byte[0], so that all lists have the same length. If false, the // corresponding entries in min_values and max_values must be valid. // - MinValues: Two lists containing lower and upper bounds for the values of each page. // These may be the actual minimum and maximum values found on a page, but // can also be (more compact) values that do not exist on a page. For // example, instead of storing ""Blart Versenwald III", a writer may set // min_values[i]="B", max_values[i]="C". Such more compact values must still // be valid values within the column's logical type. Readers must make sure // that list entries are populated before using them by inspecting null_pages. // - MaxValues // - BoundaryOrder: Stores whether both min_values and max_values are orderd and if so, in // which direction. This allows readers to perform binary searches in both // lists. Readers cannot assume that max_values[i] <= min_values[i+1], even // if the lists are ordered. // - NullCounts: A list containing the number of null values for each page * type ColumnIndex struct { NullPages []bool `thrift:"null_pages,1,required" db:"null_pages" json:"null_pages"` MinValues [][]byte `thrift:"min_values,2,required" db:"min_values" json:"min_values"` MaxValues [][]byte `thrift:"max_values,3,required" db:"max_values" json:"max_values"` BoundaryOrder BoundaryOrder `thrift:"boundary_order,4,required" db:"boundary_order" json:"boundary_order"` NullCounts []int64 `thrift:"null_counts,5" db:"null_counts" json:"null_counts,omitempty"` } func NewColumnIndex() *ColumnIndex { return &ColumnIndex{} } func (p *ColumnIndex) GetNullPages() []bool { return p.NullPages } func (p *ColumnIndex) GetMinValues() [][]byte { return p.MinValues } func (p *ColumnIndex) GetMaxValues() [][]byte { return p.MaxValues } func (p *ColumnIndex) GetBoundaryOrder() BoundaryOrder { return p.BoundaryOrder } var ColumnIndex_NullCounts_DEFAULT []int64 func (p *ColumnIndex) GetNullCounts() []int64 { return p.NullCounts } func (p *ColumnIndex) IsSetNullCounts() bool { return p.NullCounts != nil } func (p *ColumnIndex) Read(iprot thrift.TProtocol) error { if _, err := iprot.ReadStructBegin(); err != nil { return thrift.PrependError(fmt.Sprintf("%T read error: ", p), err) } var issetNullPages bool = false var issetMinValues bool = false var issetMaxValues bool = false var issetBoundaryOrder bool = false for { _, fieldTypeId, fieldId, err := iprot.ReadFieldBegin() if err != nil { return thrift.PrependError(fmt.Sprintf("%T field %d read error: ", p, fieldId), err) } if fieldTypeId == thrift.STOP { break } switch fieldId { case 1: if err := p.ReadField1(iprot); err != nil { return err } issetNullPages = true case 2: if err := p.ReadField2(iprot); err != nil { return err } issetMinValues = true case 3: if err := p.ReadField3(iprot); err != nil { return err } issetMaxValues = true case 4: if err := p.ReadField4(iprot); err != nil { return err } issetBoundaryOrder = true case 5: if err := p.ReadField5(iprot); err != nil { return err } default: if err := iprot.Skip(fieldTypeId); err != nil { return err } } if err := iprot.ReadFieldEnd(); err != nil { return err } } if err := iprot.ReadStructEnd(); err != nil { return thrift.PrependError(fmt.Sprintf("%T read struct end error: ", p), err) } if !issetNullPages { return thrift.NewTProtocolExceptionWithType(thrift.INVALID_DATA, fmt.Errorf("Required field NullPages is not set")) } if !issetMinValues { return thrift.NewTProtocolExceptionWithType(thrift.INVALID_DATA, fmt.Errorf("Required field MinValues is not set")) } if !issetMaxValues { return thrift.NewTProtocolExceptionWithType(thrift.INVALID_DATA, fmt.Errorf("Required field MaxValues is not set")) } if !issetBoundaryOrder { return thrift.NewTProtocolExceptionWithType(thrift.INVALID_DATA, fmt.Errorf("Required field BoundaryOrder is not set")) } return nil } func (p *ColumnIndex) ReadField1(iprot thrift.TProtocol) error { _, size, err := iprot.ReadListBegin() if err != nil { return thrift.PrependError("error reading list begin: ", err) } tSlice := make([]bool, 0, size) p.NullPages = tSlice for i := 0; i < size; i++ { var _elem7 bool if v, err := iprot.ReadBool(); err != nil { return thrift.PrependError("error reading field 0: ", err) } else { _elem7 = v } p.NullPages = append(p.NullPages, _elem7) } if err := iprot.ReadListEnd(); err != nil { return thrift.PrependError("error reading list end: ", err) } return nil } func (p *ColumnIndex) ReadField2(iprot thrift.TProtocol) error { _, size, err := iprot.ReadListBegin() if err != nil { return thrift.PrependError("error reading list begin: ", err) } tSlice := make([][]byte, 0, size) p.MinValues = tSlice for i := 0; i < size; i++ { var _elem8 []byte if v, err := iprot.ReadBinary(); err != nil { return thrift.PrependError("error reading field 0: ", err) } else { _elem8 = v } p.MinValues = append(p.MinValues, _elem8) } if err := iprot.ReadListEnd(); err != nil { return thrift.PrependError("error reading list end: ", err) } return nil } func (p *ColumnIndex) ReadField3(iprot thrift.TProtocol) error { _, size, err := iprot.ReadListBegin() if err != nil { return thrift.PrependError("error reading list begin: ", err) } tSlice := make([][]byte, 0, size) p.MaxValues = tSlice for i := 0; i < size; i++ { var _elem9 []byte if v, err := iprot.ReadBinary(); err != nil { return thrift.PrependError("error reading field 0: ", err) } else { _elem9 = v } p.MaxValues = append(p.MaxValues, _elem9) } if err := iprot.ReadListEnd(); err != nil { return thrift.PrependError("error reading list end: ", err) } return nil } func (p *ColumnIndex) ReadField4(iprot thrift.TProtocol) error { if v, err := iprot.ReadI32(); err != nil { return thrift.PrependError("error reading field 4: ", err) } else { temp := BoundaryOrder(v) p.BoundaryOrder = temp } return nil } func (p *ColumnIndex) ReadField5(iprot thrift.TProtocol) error { _, size, err := iprot.ReadListBegin() if err != nil { return thrift.PrependError("error reading list begin: ", err) } tSlice := make([]int64, 0, size) p.NullCounts = tSlice for i := 0; i < size; i++ { var _elem10 int64 if v, err := iprot.ReadI64(); err != nil { return thrift.PrependError("error reading field 0: ", err) } else { _elem10 = v } p.NullCounts = append(p.NullCounts, _elem10) } if err := iprot.ReadListEnd(); err != nil { return thrift.PrependError("error reading list end: ", err) } return nil } func (p *ColumnIndex) Write(oprot thrift.TProtocol) error { if err := oprot.WriteStructBegin("ColumnIndex"); err != nil { return thrift.PrependError(fmt.Sprintf("%T write struct begin error: ", p), err) } if p != nil { if err := p.writeField1(oprot); err != nil { return err } if err := p.writeField2(oprot); err != nil { return err } if err := p.writeField3(oprot); err != nil { return err } if err := p.writeField4(oprot); err != nil { return err } if err := p.writeField5(oprot); err != nil { return err } } if err := oprot.WriteFieldStop(); err != nil { return thrift.PrependError("write field stop error: ", err) } if err := oprot.WriteStructEnd(); err != nil { return thrift.PrependError("write struct stop error: ", err) } return nil } func (p *ColumnIndex) writeField1(oprot thrift.TProtocol) (err error) { if err := oprot.WriteFieldBegin("null_pages", thrift.LIST, 1); err != nil { return thrift.PrependError(fmt.Sprintf("%T write field begin error 1:null_pages: ", p), err) } if err := oprot.WriteListBegin(thrift.BOOL, len(p.NullPages)); err != nil { return thrift.PrependError("error writing list begin: ", err) } for _, v := range p.NullPages { if err := oprot.WriteBool(v); err != nil { return thrift.PrependError(fmt.Sprintf("%T. (0) field write error: ", p), err) } } if err := oprot.WriteListEnd(); err != nil { return thrift.PrependError("error writing list end: ", err) } if err := oprot.WriteFieldEnd(); err != nil { return thrift.PrependError(fmt.Sprintf("%T write field end error 1:null_pages: ", p), err) } return err } func (p *ColumnIndex) writeField2(oprot thrift.TProtocol) (err error) { if err := oprot.WriteFieldBegin("min_values", thrift.LIST, 2); err != nil { return thrift.PrependError(fmt.Sprintf("%T write field begin error 2:min_values: ", p), err) } if err := oprot.WriteListBegin(thrift.STRING, len(p.MinValues)); err != nil { return thrift.PrependError("error writing list begin: ", err) } for _, v := range p.MinValues { if err := oprot.WriteBinary(v); err != nil { return thrift.PrependError(fmt.Sprintf("%T. (0) field write error: ", p), err) } } if err := oprot.WriteListEnd(); err != nil { return thrift.PrependError("error writing list end: ", err) } if err := oprot.WriteFieldEnd(); err != nil { return thrift.PrependError(fmt.Sprintf("%T write field end error 2:min_values: ", p), err) } return err } func (p *ColumnIndex) writeField3(oprot thrift.TProtocol) (err error) { if err := oprot.WriteFieldBegin("max_values", thrift.LIST, 3); err != nil { return thrift.PrependError(fmt.Sprintf("%T write field begin error 3:max_values: ", p), err) } if err := oprot.WriteListBegin(thrift.STRING, len(p.MaxValues)); err != nil { return thrift.PrependError("error writing list begin: ", err) } for _, v := range p.MaxValues { if err := oprot.WriteBinary(v); err != nil { return thrift.PrependError(fmt.Sprintf("%T. (0) field write error: ", p), err) } } if err := oprot.WriteListEnd(); err != nil { return thrift.PrependError("error writing list end: ", err) } if err := oprot.WriteFieldEnd(); err != nil { return thrift.PrependError(fmt.Sprintf("%T write field end error 3:max_values: ", p), err) } return err } func (p *ColumnIndex) writeField4(oprot thrift.TProtocol) (err error) { if err := oprot.WriteFieldBegin("boundary_order", thrift.I32, 4); err != nil { return thrift.PrependError(fmt.Sprintf("%T write field begin error 4:boundary_order: ", p), err) } if err := oprot.WriteI32(int32(p.BoundaryOrder)); err != nil { return thrift.PrependError(fmt.Sprintf("%T.boundary_order (4) field write error: ", p), err) } if err := oprot.WriteFieldEnd(); err != nil { return thrift.PrependError(fmt.Sprintf("%T write field end error 4:boundary_order: ", p), err) } return err } func (p *ColumnIndex) writeField5(oprot thrift.TProtocol) (err error) { if p.IsSetNullCounts() { if err := oprot.WriteFieldBegin("null_counts", thrift.LIST, 5); err != nil { return thrift.PrependError(fmt.Sprintf("%T write field begin error 5:null_counts: ", p), err) } if err := oprot.WriteListBegin(thrift.I64, len(p.NullCounts)); err != nil { return thrift.PrependError("error writing list begin: ", err) } for _, v := range p.NullCounts { if err := oprot.WriteI64(v); err != nil { return thrift.PrependError(fmt.Sprintf("%T. (0) field write error: ", p), err) } } if err := oprot.WriteListEnd(); err != nil { return thrift.PrependError("error writing list end: ", err) } if err := oprot.WriteFieldEnd(); err != nil { return thrift.PrependError(fmt.Sprintf("%T write field end error 5:null_counts: ", p), err) } } return err } func (p *ColumnIndex) String() string { if p == nil { return "" } return fmt.Sprintf("ColumnIndex(%+v)", *p) } // Description for file metadata // // Attributes: // - Version: Version of this file * // - Schema: Parquet schema for this file. This schema contains metadata for all the columns. // The schema is represented as a tree with a single root. The nodes of the tree // are flattened to a list by doing a depth-first traversal. // The column metadata contains the path in the schema for that column which can be // used to map columns to nodes in the schema. // The first element is the root * // - NumRows: Number of rows in this file * // - RowGroups: Row groups in this file * // - KeyValueMetadata: Optional key/value metadata * // - CreatedBy: String for application that wrote this file. This should be in the format // version (build ). // e.g. impala version 1.0 (build 6cf94d29b2b7115df4de2c06e2ab4326d721eb55) // // - ColumnOrders: Sort order used for the min_value and max_value fields of each column in // this file. Each sort order corresponds to one column, determined by its // position in the list, matching the position of the column in the schema. // // Without column_orders, the meaning of the min_value and max_value fields is // undefined. To ensure well-defined behavior, if min_value and max_value are // written to a Parquet file, column_orders must be written as well. // // The obsolete min and max fields are always sorted by signed comparison // regardless of column_orders. type FileMetaData struct { Version int32 `thrift:"version,1,required" db:"version" json:"version"` Schema []*SchemaElement `thrift:"schema,2,required" db:"schema" json:"schema"` NumRows int64 `thrift:"num_rows,3,required" db:"num_rows" json:"num_rows"` RowGroups []*RowGroup `thrift:"row_groups,4,required" db:"row_groups" json:"row_groups"` KeyValueMetadata []*KeyValue `thrift:"key_value_metadata,5" db:"key_value_metadata" json:"key_value_metadata,omitempty"` CreatedBy *string `thrift:"created_by,6" db:"created_by" json:"created_by,omitempty"` ColumnOrders []*ColumnOrder `thrift:"column_orders,7" db:"column_orders" json:"column_orders,omitempty"` } func NewFileMetaData() *FileMetaData { return &FileMetaData{} } func (p *FileMetaData) GetVersion() int32 { return p.Version } func (p *FileMetaData) GetSchema() []*SchemaElement { return p.Schema } func (p *FileMetaData) GetNumRows() int64 { return p.NumRows } func (p *FileMetaData) GetRowGroups() []*RowGroup { return p.RowGroups } var FileMetaData_KeyValueMetadata_DEFAULT []*KeyValue func (p *FileMetaData) GetKeyValueMetadata() []*KeyValue { return p.KeyValueMetadata } var FileMetaData_CreatedBy_DEFAULT string func (p *FileMetaData) GetCreatedBy() string { if !p.IsSetCreatedBy() { return FileMetaData_CreatedBy_DEFAULT } return *p.CreatedBy } var FileMetaData_ColumnOrders_DEFAULT []*ColumnOrder func (p *FileMetaData) GetColumnOrders() []*ColumnOrder { return p.ColumnOrders } func (p *FileMetaData) IsSetKeyValueMetadata() bool { return p.KeyValueMetadata != nil } func (p *FileMetaData) IsSetCreatedBy() bool { return p.CreatedBy != nil } func (p *FileMetaData) IsSetColumnOrders() bool { return p.ColumnOrders != nil } func (p *FileMetaData) Read(iprot thrift.TProtocol) error { if _, err := iprot.ReadStructBegin(); err != nil { return thrift.PrependError(fmt.Sprintf("%T read error: ", p), err) } var issetVersion bool = false var issetSchema bool = false var issetNumRows bool = false var issetRowGroups bool = false for { _, fieldTypeId, fieldId, err := iprot.ReadFieldBegin() if err != nil { return thrift.PrependError(fmt.Sprintf("%T field %d read error: ", p, fieldId), err) } if fieldTypeId == thrift.STOP { break } switch fieldId { case 1: if err := p.ReadField1(iprot); err != nil { return err } issetVersion = true case 2: if err := p.ReadField2(iprot); err != nil { return err } issetSchema = true case 3: if err := p.ReadField3(iprot); err != nil { return err } issetNumRows = true case 4: if err := p.ReadField4(iprot); err != nil { return err } issetRowGroups = true case 5: if err := p.ReadField5(iprot); err != nil { return err } case 6: if err := p.ReadField6(iprot); err != nil { return err } case 7: if err := p.ReadField7(iprot); err != nil { return err } default: if err := iprot.Skip(fieldTypeId); err != nil { return err } } if err := iprot.ReadFieldEnd(); err != nil { return err } } if err := iprot.ReadStructEnd(); err != nil { return thrift.PrependError(fmt.Sprintf("%T read struct end error: ", p), err) } if !issetVersion { return thrift.NewTProtocolExceptionWithType(thrift.INVALID_DATA, fmt.Errorf("Required field Version is not set")) } if !issetSchema { return thrift.NewTProtocolExceptionWithType(thrift.INVALID_DATA, fmt.Errorf("Required field Schema is not set")) } if !issetNumRows { return thrift.NewTProtocolExceptionWithType(thrift.INVALID_DATA, fmt.Errorf("Required field NumRows is not set")) } if !issetRowGroups { return thrift.NewTProtocolExceptionWithType(thrift.INVALID_DATA, fmt.Errorf("Required field RowGroups is not set")) } return nil } func (p *FileMetaData) ReadField1(iprot thrift.TProtocol) error { if v, err := iprot.ReadI32(); err != nil { return thrift.PrependError("error reading field 1: ", err) } else { p.Version = v } return nil } func (p *FileMetaData) ReadField2(iprot thrift.TProtocol) error { _, size, err := iprot.ReadListBegin() if err != nil { return thrift.PrependError("error reading list begin: ", err) } tSlice := make([]*SchemaElement, 0, size) p.Schema = tSlice for i := 0; i < size; i++ { _elem11 := &SchemaElement{} if err := _elem11.Read(iprot); err != nil { return thrift.PrependError(fmt.Sprintf("%T error reading struct: ", _elem11), err) } p.Schema = append(p.Schema, _elem11) } if err := iprot.ReadListEnd(); err != nil { return thrift.PrependError("error reading list end: ", err) } return nil } func (p *FileMetaData) ReadField3(iprot thrift.TProtocol) error { if v, err := iprot.ReadI64(); err != nil { return thrift.PrependError("error reading field 3: ", err) } else { p.NumRows = v } return nil } func (p *FileMetaData) ReadField4(iprot thrift.TProtocol) error { _, size, err := iprot.ReadListBegin() if err != nil { return thrift.PrependError("error reading list begin: ", err) } tSlice := make([]*RowGroup, 0, size) p.RowGroups = tSlice for i := 0; i < size; i++ { _elem12 := &RowGroup{} if err := _elem12.Read(iprot); err != nil { return thrift.PrependError(fmt.Sprintf("%T error reading struct: ", _elem12), err) } p.RowGroups = append(p.RowGroups, _elem12) } if err := iprot.ReadListEnd(); err != nil { return thrift.PrependError("error reading list end: ", err) } return nil } func (p *FileMetaData) ReadField5(iprot thrift.TProtocol) error { _, size, err := iprot.ReadListBegin() if err != nil { return thrift.PrependError("error reading list begin: ", err) } tSlice := make([]*KeyValue, 0, size) p.KeyValueMetadata = tSlice for i := 0; i < size; i++ { _elem13 := &KeyValue{} if err := _elem13.Read(iprot); err != nil { return thrift.PrependError(fmt.Sprintf("%T error reading struct: ", _elem13), err) } p.KeyValueMetadata = append(p.KeyValueMetadata, _elem13) } if err := iprot.ReadListEnd(); err != nil { return thrift.PrependError("error reading list end: ", err) } return nil } func (p *FileMetaData) ReadField6(iprot thrift.TProtocol) error { if v, err := iprot.ReadString(); err != nil { return thrift.PrependError("error reading field 6: ", err) } else { p.CreatedBy = &v } return nil } func (p *FileMetaData) ReadField7(iprot thrift.TProtocol) error { _, size, err := iprot.ReadListBegin() if err != nil { return thrift.PrependError("error reading list begin: ", err) } tSlice := make([]*ColumnOrder, 0, size) p.ColumnOrders = tSlice for i := 0; i < size; i++ { _elem14 := &ColumnOrder{} if err := _elem14.Read(iprot); err != nil { return thrift.PrependError(fmt.Sprintf("%T error reading struct: ", _elem14), err) } p.ColumnOrders = append(p.ColumnOrders, _elem14) } if err := iprot.ReadListEnd(); err != nil { return thrift.PrependError("error reading list end: ", err) } return nil } func (p *FileMetaData) Write(oprot thrift.TProtocol) error { if err := oprot.WriteStructBegin("FileMetaData"); err != nil { return thrift.PrependError(fmt.Sprintf("%T write struct begin error: ", p), err) } if p != nil { if err := p.writeField1(oprot); err != nil { return err } if err := p.writeField2(oprot); err != nil { return err } if err := p.writeField3(oprot); err != nil { return err } if err := p.writeField4(oprot); err != nil { return err } if err := p.writeField5(oprot); err != nil { return err } if err := p.writeField6(oprot); err != nil { return err } if err := p.writeField7(oprot); err != nil { return err } } if err := oprot.WriteFieldStop(); err != nil { return thrift.PrependError("write field stop error: ", err) } if err := oprot.WriteStructEnd(); err != nil { return thrift.PrependError("write struct stop error: ", err) } return nil } func (p *FileMetaData) writeField1(oprot thrift.TProtocol) (err error) { if err := oprot.WriteFieldBegin("version", thrift.I32, 1); err != nil { return thrift.PrependError(fmt.Sprintf("%T write field begin error 1:version: ", p), err) } if err := oprot.WriteI32(p.Version); err != nil { return thrift.PrependError(fmt.Sprintf("%T.version (1) field write error: ", p), err) } if err := oprot.WriteFieldEnd(); err != nil { return thrift.PrependError(fmt.Sprintf("%T write field end error 1:version: ", p), err) } return err } func (p *FileMetaData) writeField2(oprot thrift.TProtocol) (err error) { if err := oprot.WriteFieldBegin("schema", thrift.LIST, 2); err != nil { return thrift.PrependError(fmt.Sprintf("%T write field begin error 2:schema: ", p), err) } if err := oprot.WriteListBegin(thrift.STRUCT, len(p.Schema)); err != nil { return thrift.PrependError("error writing list begin: ", err) } for _, v := range p.Schema { if err := v.Write(oprot); err != nil { return thrift.PrependError(fmt.Sprintf("%T error writing struct: ", v), err) } } if err := oprot.WriteListEnd(); err != nil { return thrift.PrependError("error writing list end: ", err) } if err := oprot.WriteFieldEnd(); err != nil { return thrift.PrependError(fmt.Sprintf("%T write field end error 2:schema: ", p), err) } return err } func (p *FileMetaData) writeField3(oprot thrift.TProtocol) (err error) { if err := oprot.WriteFieldBegin("num_rows", thrift.I64, 3); err != nil { return thrift.PrependError(fmt.Sprintf("%T write field begin error 3:num_rows: ", p), err) } if err := oprot.WriteI64(p.NumRows); err != nil { return thrift.PrependError(fmt.Sprintf("%T.num_rows (3) field write error: ", p), err) } if err := oprot.WriteFieldEnd(); err != nil { return thrift.PrependError(fmt.Sprintf("%T write field end error 3:num_rows: ", p), err) } return err } func (p *FileMetaData) writeField4(oprot thrift.TProtocol) (err error) { if err := oprot.WriteFieldBegin("row_groups", thrift.LIST, 4); err != nil { return thrift.PrependError(fmt.Sprintf("%T write field begin error 4:row_groups: ", p), err) } if err := oprot.WriteListBegin(thrift.STRUCT, len(p.RowGroups)); err != nil { return thrift.PrependError("error writing list begin: ", err) } for _, v := range p.RowGroups { if err := v.Write(oprot); err != nil { return thrift.PrependError(fmt.Sprintf("%T error writing struct: ", v), err) } } if err := oprot.WriteListEnd(); err != nil { return thrift.PrependError("error writing list end: ", err) } if err := oprot.WriteFieldEnd(); err != nil { return thrift.PrependError(fmt.Sprintf("%T write field end error 4:row_groups: ", p), err) } return err } func (p *FileMetaData) writeField5(oprot thrift.TProtocol) (err error) { if p.IsSetKeyValueMetadata() { if err := oprot.WriteFieldBegin("key_value_metadata", thrift.LIST, 5); err != nil { return thrift.PrependError(fmt.Sprintf("%T write field begin error 5:key_value_metadata: ", p), err) } if err := oprot.WriteListBegin(thrift.STRUCT, len(p.KeyValueMetadata)); err != nil { return thrift.PrependError("error writing list begin: ", err) } for _, v := range p.KeyValueMetadata { if err := v.Write(oprot); err != nil { return thrift.PrependError(fmt.Sprintf("%T error writing struct: ", v), err) } } if err := oprot.WriteListEnd(); err != nil { return thrift.PrependError("error writing list end: ", err) } if err := oprot.WriteFieldEnd(); err != nil { return thrift.PrependError(fmt.Sprintf("%T write field end error 5:key_value_metadata: ", p), err) } } return err } func (p *FileMetaData) writeField6(oprot thrift.TProtocol) (err error) { if p.IsSetCreatedBy() { if err := oprot.WriteFieldBegin("created_by", thrift.STRING, 6); err != nil { return thrift.PrependError(fmt.Sprintf("%T write field begin error 6:created_by: ", p), err) } if err := oprot.WriteString(string(*p.CreatedBy)); err != nil { return thrift.PrependError(fmt.Sprintf("%T.created_by (6) field write error: ", p), err) } if err := oprot.WriteFieldEnd(); err != nil { return thrift.PrependError(fmt.Sprintf("%T write field end error 6:created_by: ", p), err) } } return err } func (p *FileMetaData) writeField7(oprot thrift.TProtocol) (err error) { if p.IsSetColumnOrders() { if err := oprot.WriteFieldBegin("column_orders", thrift.LIST, 7); err != nil { return thrift.PrependError(fmt.Sprintf("%T write field begin error 7:column_orders: ", p), err) } if err := oprot.WriteListBegin(thrift.STRUCT, len(p.ColumnOrders)); err != nil { return thrift.PrependError("error writing list begin: ", err) } for _, v := range p.ColumnOrders { if err := v.Write(oprot); err != nil { return thrift.PrependError(fmt.Sprintf("%T error writing struct: ", v), err) } } if err := oprot.WriteListEnd(); err != nil { return thrift.PrependError("error writing list end: ", err) } if err := oprot.WriteFieldEnd(); err != nil { return thrift.PrependError(fmt.Sprintf("%T write field end error 7:column_orders: ", p), err) } } return err } func (p *FileMetaData) String() string { if p == nil { return "" } return fmt.Sprintf("FileMetaData(%+v)", *p) }