github.com/parquet-go/parquet-go@v0.20.0/merge.go (about) 1 package parquet 2 3 import ( 4 "container/heap" 5 "errors" 6 "fmt" 7 "io" 8 "sync" 9 ) 10 11 // MergeRowGroups constructs a row group which is a merged view of rowGroups. If 12 // rowGroups are sorted and the passed options include sorting, the merged row 13 // group will also be sorted. 14 // 15 // The function validates the input to ensure that the merge operation is 16 // possible, ensuring that the schemas match or can be converted to an 17 // optionally configured target schema passed as argument in the option list. 18 // 19 // The sorting columns of each row group are also consulted to determine whether 20 // the output can be represented. If sorting columns are configured on the merge 21 // they must be a prefix of sorting columns of all row groups being merged. 22 func MergeRowGroups(rowGroups []RowGroup, options ...RowGroupOption) (RowGroup, error) { 23 config, err := NewRowGroupConfig(options...) 24 if err != nil { 25 return nil, err 26 } 27 28 schema := config.Schema 29 if len(rowGroups) == 0 { 30 return newEmptyRowGroup(schema), nil 31 } 32 if schema == nil { 33 schema = rowGroups[0].Schema() 34 35 for _, rowGroup := range rowGroups[1:] { 36 if !nodesAreEqual(schema, rowGroup.Schema()) { 37 return nil, ErrRowGroupSchemaMismatch 38 } 39 } 40 } 41 42 mergedRowGroups := make([]RowGroup, len(rowGroups)) 43 copy(mergedRowGroups, rowGroups) 44 45 for i, rowGroup := range mergedRowGroups { 46 if rowGroupSchema := rowGroup.Schema(); !nodesAreEqual(schema, rowGroupSchema) { 47 conv, err := Convert(schema, rowGroupSchema) 48 if err != nil { 49 return nil, fmt.Errorf("cannot merge row groups: %w", err) 50 } 51 mergedRowGroups[i] = ConvertRowGroup(rowGroup, conv) 52 } 53 } 54 55 m := &mergedRowGroup{sorting: config.Sorting.SortingColumns} 56 m.init(schema, mergedRowGroups) 57 58 if len(m.sorting) == 0 { 59 // When the row group has no ordering, use a simpler version of the 60 // merger which simply concatenates rows from each of the row groups. 61 // This is preferable because it makes the output deterministic, the 62 // heap merge may otherwise reorder rows across groups. 63 return &m.multiRowGroup, nil 64 } 65 66 for _, rowGroup := range m.rowGroups { 67 if !sortingColumnsHavePrefix(rowGroup.SortingColumns(), m.sorting) { 68 return nil, ErrRowGroupSortingColumnsMismatch 69 } 70 } 71 72 m.compare = compareRowsFuncOf(schema, m.sorting) 73 return m, nil 74 } 75 76 type mergedRowGroup struct { 77 multiRowGroup 78 sorting []SortingColumn 79 compare func(Row, Row) int 80 } 81 82 func (m *mergedRowGroup) SortingColumns() []SortingColumn { 83 return m.sorting 84 } 85 86 func (m *mergedRowGroup) Rows() Rows { 87 // The row group needs to respect a sorting order; the merged row reader 88 // uses a heap to merge rows from the row groups. 89 rows := make([]Rows, len(m.rowGroups)) 90 for i := range rows { 91 rows[i] = m.rowGroups[i].Rows() 92 } 93 return &mergedRowGroupRows{ 94 merge: mergedRowReader{ 95 compare: m.compare, 96 readers: makeBufferedRowReaders(len(rows), func(i int) RowReader { return rows[i] }), 97 }, 98 rows: rows, 99 schema: m.schema, 100 } 101 } 102 103 type mergedRowGroupRows struct { 104 merge mergedRowReader 105 rowIndex int64 106 seekToRow int64 107 rows []Rows 108 schema *Schema 109 } 110 111 func (r *mergedRowGroupRows) WriteRowsTo(w RowWriter) (n int64, err error) { 112 b := newMergeBuffer() 113 b.setup(r.rows, r.merge.compare) 114 n, err = b.WriteRowsTo(w) 115 r.rowIndex += int64(n) 116 b.release() 117 return 118 } 119 120 func (r *mergedRowGroupRows) readInternal(rows []Row) (int, error) { 121 n, err := r.merge.ReadRows(rows) 122 r.rowIndex += int64(n) 123 return n, err 124 } 125 126 func (r *mergedRowGroupRows) Close() (lastErr error) { 127 r.merge.close() 128 r.rowIndex = 0 129 r.seekToRow = 0 130 131 for _, rows := range r.rows { 132 if err := rows.Close(); err != nil { 133 lastErr = err 134 } 135 } 136 137 return lastErr 138 } 139 140 func (r *mergedRowGroupRows) ReadRows(rows []Row) (int, error) { 141 for r.rowIndex < r.seekToRow { 142 n := int(r.seekToRow - r.rowIndex) 143 if n > len(rows) { 144 n = len(rows) 145 } 146 n, err := r.readInternal(rows[:n]) 147 if err != nil { 148 return 0, err 149 } 150 } 151 152 return r.readInternal(rows) 153 } 154 155 func (r *mergedRowGroupRows) SeekToRow(rowIndex int64) error { 156 if rowIndex >= r.rowIndex { 157 r.seekToRow = rowIndex 158 return nil 159 } 160 return fmt.Errorf("SeekToRow: merged row reader cannot seek backward from row %d to %d", r.rowIndex, rowIndex) 161 } 162 163 func (r *mergedRowGroupRows) Schema() *Schema { 164 return r.schema 165 } 166 167 // MergeRowReader constructs a RowReader which creates an ordered sequence of 168 // all the readers using the given compare function as the ordering predicate. 169 func MergeRowReaders(readers []RowReader, compare func(Row, Row) int) RowReader { 170 return &mergedRowReader{ 171 compare: compare, 172 readers: makeBufferedRowReaders(len(readers), func(i int) RowReader { return readers[i] }), 173 } 174 } 175 176 func makeBufferedRowReaders(numReaders int, readerAt func(int) RowReader) []*bufferedRowReader { 177 buffers := make([]bufferedRowReader, numReaders) 178 readers := make([]*bufferedRowReader, numReaders) 179 180 for i := range readers { 181 buffers[i].rows = readerAt(i) 182 readers[i] = &buffers[i] 183 } 184 185 return readers 186 } 187 188 type mergedRowReader struct { 189 compare func(Row, Row) int 190 readers []*bufferedRowReader 191 initialized bool 192 } 193 194 func (m *mergedRowReader) initialize() error { 195 for i, r := range m.readers { 196 switch err := r.read(); err { 197 case nil: 198 case io.EOF: 199 m.readers[i] = nil 200 default: 201 m.readers = nil 202 return err 203 } 204 } 205 206 n := 0 207 for _, r := range m.readers { 208 if r != nil { 209 m.readers[n] = r 210 n++ 211 } 212 } 213 214 clear := m.readers[n:] 215 for i := range clear { 216 clear[i] = nil 217 } 218 219 m.readers = m.readers[:n] 220 heap.Init(m) 221 return nil 222 } 223 224 func (m *mergedRowReader) close() { 225 for _, r := range m.readers { 226 r.close() 227 } 228 m.readers = nil 229 } 230 231 func (m *mergedRowReader) ReadRows(rows []Row) (n int, err error) { 232 if !m.initialized { 233 m.initialized = true 234 235 if err := m.initialize(); err != nil { 236 return 0, err 237 } 238 } 239 240 for n < len(rows) && len(m.readers) != 0 { 241 r := m.readers[0] 242 243 rows[n] = append(rows[n][:0], r.head()...) 244 n++ 245 246 if err := r.next(); err != nil { 247 if err != io.EOF { 248 return n, err 249 } 250 heap.Pop(m) 251 } else { 252 heap.Fix(m, 0) 253 } 254 } 255 256 if len(m.readers) == 0 { 257 err = io.EOF 258 } 259 260 return n, err 261 } 262 263 func (m *mergedRowReader) Less(i, j int) bool { 264 return m.compare(m.readers[i].head(), m.readers[j].head()) < 0 265 } 266 267 func (m *mergedRowReader) Len() int { 268 return len(m.readers) 269 } 270 271 func (m *mergedRowReader) Swap(i, j int) { 272 m.readers[i], m.readers[j] = m.readers[j], m.readers[i] 273 } 274 275 func (m *mergedRowReader) Push(x interface{}) { 276 panic("NOT IMPLEMENTED") 277 } 278 279 func (m *mergedRowReader) Pop() interface{} { 280 i := len(m.readers) - 1 281 r := m.readers[i] 282 m.readers = m.readers[:i] 283 return r 284 } 285 286 type bufferedRowReader struct { 287 rows RowReader 288 off int32 289 end int32 290 buf [10]Row 291 } 292 293 func (r *bufferedRowReader) head() Row { 294 return r.buf[r.off] 295 } 296 297 func (r *bufferedRowReader) next() error { 298 if r.off++; r.off == r.end { 299 r.off = 0 300 r.end = 0 301 return r.read() 302 } 303 return nil 304 } 305 306 func (r *bufferedRowReader) read() error { 307 if r.rows == nil { 308 return io.EOF 309 } 310 n, err := r.rows.ReadRows(r.buf[r.end:]) 311 if err != nil && n == 0 { 312 return err 313 } 314 r.end += int32(n) 315 return nil 316 } 317 318 func (r *bufferedRowReader) close() { 319 r.rows = nil 320 r.off = 0 321 r.end = 0 322 } 323 324 type mergeBuffer struct { 325 compare func(Row, Row) int 326 rows []Rows 327 buffer [][]Row 328 head []int 329 len int 330 copy [mergeBufferSize]Row 331 } 332 333 const mergeBufferSize = 1 << 10 334 335 func newMergeBuffer() *mergeBuffer { 336 return mergeBufferPool.Get().(*mergeBuffer) 337 } 338 339 var mergeBufferPool = &sync.Pool{ 340 New: func() any { 341 return new(mergeBuffer) 342 }, 343 } 344 345 func (m *mergeBuffer) setup(rows []Rows, compare func(Row, Row) int) { 346 m.compare = compare 347 m.rows = append(m.rows, rows...) 348 size := len(rows) 349 if len(m.buffer) < size { 350 extra := size - len(m.buffer) 351 b := make([][]Row, extra) 352 for i := range b { 353 b[i] = make([]Row, 0, mergeBufferSize) 354 } 355 m.buffer = append(m.buffer, b...) 356 m.head = append(m.head, make([]int, extra)...) 357 } 358 m.len = size 359 } 360 361 func (m *mergeBuffer) reset() { 362 for i := range m.rows { 363 m.buffer[i] = m.buffer[i][:0] 364 m.head[i] = 0 365 } 366 m.rows = m.rows[:0] 367 m.compare = nil 368 for i := range m.copy { 369 m.copy[i] = nil 370 } 371 m.len = 0 372 } 373 374 func (m *mergeBuffer) release() { 375 m.reset() 376 mergeBufferPool.Put(m) 377 } 378 379 func (m *mergeBuffer) fill() error { 380 m.len = len(m.rows) 381 for i := range m.rows { 382 if m.head[i] < len(m.buffer[i]) { 383 // There is still rows data in m.buffer[i]. Skip filling the row buffer until 384 // all rows have been read. 385 continue 386 } 387 m.head[i] = 0 388 m.buffer[i] = m.buffer[i][:mergeBufferSize] 389 n, err := m.rows[i].ReadRows(m.buffer[i]) 390 if err != nil { 391 if !errors.Is(err, io.EOF) { 392 return err 393 } 394 } 395 m.buffer[i] = m.buffer[i][:n] 396 } 397 heap.Init(m) 398 return nil 399 } 400 401 func (m *mergeBuffer) Less(i, j int) bool { 402 x := m.buffer[i] 403 if len(x) == 0 { 404 return false 405 } 406 y := m.buffer[j] 407 if len(y) == 0 { 408 return true 409 } 410 return m.compare(x[m.head[i]], y[m.head[j]]) == -1 411 } 412 413 func (m *mergeBuffer) Pop() interface{} { 414 m.len-- 415 // We don't use the popped value. 416 return nil 417 } 418 419 func (m *mergeBuffer) Len() int { 420 return m.len 421 } 422 423 func (m *mergeBuffer) Swap(i, j int) { 424 m.buffer[i], m.buffer[j] = m.buffer[j], m.buffer[i] 425 m.head[i], m.head[j] = m.head[j], m.head[i] 426 } 427 428 func (m *mergeBuffer) Push(x interface{}) { 429 panic("NOT IMPLEMENTED") 430 } 431 432 func (m *mergeBuffer) WriteRowsTo(w RowWriter) (n int64, err error) { 433 err = m.fill() 434 if err != nil { 435 return 0, err 436 } 437 var count int 438 for m.left() { 439 size := m.read() 440 if size == 0 { 441 break 442 } 443 count, err = w.WriteRows(m.copy[:size]) 444 if err != nil { 445 return 446 } 447 n += int64(count) 448 err = m.fill() 449 if err != nil { 450 return 451 } 452 } 453 return 454 } 455 456 func (m *mergeBuffer) left() bool { 457 for i := 0; i < m.len; i++ { 458 if m.head[i] < len(m.buffer[i]) { 459 return true 460 } 461 } 462 return false 463 } 464 465 func (m *mergeBuffer) read() (n int64) { 466 for n < int64(len(m.copy)) && m.Len() != 0 { 467 r := m.buffer[:m.len][0] 468 if len(r) == 0 { 469 heap.Pop(m) 470 continue 471 } 472 m.copy[n] = append(m.copy[n][:0], r[m.head[0]]...) 473 m.head[0]++ 474 n++ 475 if m.head[0] < len(r) { 476 // There is still rows in this row group. Adjust the heap 477 heap.Fix(m, 0) 478 } else { 479 heap.Pop(m) 480 } 481 } 482 return 483 } 484 485 var ( 486 _ RowReaderWithSchema = (*mergedRowGroupRows)(nil) 487 _ RowWriterTo = (*mergedRowGroupRows)(nil) 488 _ heap.Interface = (*mergeBuffer)(nil) 489 _ RowWriterTo = (*mergeBuffer)(nil) 490 )