package logstorage import ( "math" "slices" "strconv" "strings" "sync/atomic" "time" "unsafe" "github.com/VictoriaMetrics/VictoriaMetrics/lib/bytesutil" "github.com/VictoriaMetrics/VictoriaMetrics/lib/decimal" "github.com/VictoriaMetrics/VictoriaMetrics/lib/encoding" "github.com/VictoriaMetrics/VictoriaMetrics/lib/fastnum" "github.com/VictoriaMetrics/VictoriaMetrics/lib/logger" "github.com/VictoriaMetrics/VictoriaMetrics/lib/slicesutil" ) // blockResult holds results for a single block of log entries. // // It is expected that its contents is accessed only from a single goroutine at a time. type blockResult struct { // rowsLen is the number of rows in the given blockResult. rowsLen int // bs is the associated blockSearch for the given blockResult. // // bs is nil for the blockResult constructed by pipes. bs *blockSearch // bm is the associated bitmap for the given blockResult. // // bm is nil for the blockResult constructed by pipes. bm *bitmap // a holds all the bytes behind the requested column values in the block. a arena // valuesBuf holds all the requested column values in the block. valuesBuf []string // timestampsBuf contains cached timestamps for the selected log entries in the block. // // timestamps must be obtained via blockResult.getTimestamps() call. timestampsBuf []int64 // csBuf contains requested columns. csBuf []blockResultColumn // csEmpty contains non-existing columns, which were referenced via getColumnByName() csEmpty []blockResultColumn // cs contains cached pointers to requested columns returned from getColumns() if csInitialized=true. cs []*blockResultColumn // csInitialized is set to true if cs is properly initialized and can be returned from getColumns(). csInitialized bool fvecs []filteredValuesEncodedCreator svecs []searchValuesEncodedCreator } func (br *blockResult) reset() { br.rowsLen = 0 br.cs = nil br.bm = nil br.a.reset() clear(br.valuesBuf) br.valuesBuf = br.valuesBuf[:0] br.timestampsBuf = br.timestampsBuf[:0] clear(br.csBuf) br.csBuf = br.csBuf[:0] clear(br.csEmpty) br.csEmpty = br.csEmpty[:0] clear(br.cs) br.cs = br.cs[:0] br.csInitialized = false clear(br.fvecs) br.fvecs = br.fvecs[:0] clear(br.svecs) br.svecs = br.svecs[:0] } // clone returns a clone of br, which owns its own data. func (br *blockResult) clone() *blockResult { brNew := &blockResult{} brNew.rowsLen = br.rowsLen // do not clone br.cs, since it may be updated at any time. // do not clone br.bm, since it may be updated at any time. cs := br.getColumns() // Pre-populate values in every column in order to properly calculate the needed backing buffer size below. for _, c := range cs { _ = c.getValues(br) } // Calculate the backing buffer size needed for cloning column values. bufLen := 0 for _, c := range cs { bufLen += c.neededBackingBufLen() } brNew.a.preallocate(bufLen) valuesBufLen := 0 for _, c := range cs { valuesBufLen += c.neededBackingValuesBufLen() } brNew.valuesBuf = make([]string, 0, valuesBufLen) srcTimestamps := br.getTimestamps() brNew.timestampsBuf = make([]int64, len(srcTimestamps)) copy(brNew.timestampsBuf, srcTimestamps) brNew.checkTimestampsLen() csNew := make([]blockResultColumn, len(cs)) for i, c := range cs { csNew[i] = c.clone(brNew) } brNew.csBuf = csNew // do not clone br.csEmpty - it will be populated by the caller via getColumnByName(). // do not clone br.fvecs and br.svecs, since they may point to external data. return brNew } // initFromFilterAllColumns initializes br from brSrc by copying rows identified by set bits at bm. // // The br is valid until brSrc or bm is updated. func (br *blockResult) initFromFilterAllColumns(brSrc *blockResult, bm *bitmap) { br.reset() srcTimestamps := brSrc.getTimestamps() dstTimestamps := br.timestampsBuf[:0] bm.forEachSetBitReadonly(func(idx int) { dstTimestamps = append(dstTimestamps, srcTimestamps[idx]) }) br.timestampsBuf = dstTimestamps br.rowsLen = len(br.timestampsBuf) for _, cSrc := range brSrc.getColumns() { br.appendFilteredColumn(brSrc, cSrc, bm) } } // appendFilteredColumn adds cSrc with the given bm filter to br. // // the br is valid until brSrc, cSrc or bm is updated. func (br *blockResult) appendFilteredColumn(brSrc *blockResult, cSrc *blockResultColumn, bm *bitmap) { if br.rowsLen == 0 { return } cDst := blockResultColumn{ name: cSrc.name, } if cSrc.isConst { cDst.isConst = true cDst.valuesEncoded = cSrc.valuesEncoded } else if cSrc.isTime { cDst.isTime = true } else { cDst.valueType = cSrc.valueType cDst.minValue = cSrc.minValue cDst.maxValue = cSrc.maxValue cDst.dictValues = cSrc.dictValues br.fvecs = append(br.fvecs, filteredValuesEncodedCreator{ br: brSrc, c: cSrc, bm: bm, }) cDst.valuesEncodedCreator = &br.fvecs[len(br.fvecs)-1] } br.csBuf = append(br.csBuf, cDst) br.csInitialized = false } type filteredValuesEncodedCreator struct { br *blockResult c *blockResultColumn bm *bitmap } func (fvec *filteredValuesEncodedCreator) newValuesEncoded(br *blockResult) []string { valuesEncodedSrc := fvec.c.getValuesEncoded(fvec.br) valuesBuf := br.valuesBuf valuesBufLen := len(valuesBuf) fvec.bm.forEachSetBitReadonly(func(idx int) { valuesBuf = append(valuesBuf, valuesEncodedSrc[idx]) }) br.valuesBuf = valuesBuf return valuesBuf[valuesBufLen:] } // cloneValues clones the given values into br and returns the cloned values. func (br *blockResult) cloneValues(values []string) []string { if values == nil { return nil } valuesBufLen := len(br.valuesBuf) for _, v := range values { br.addValue(v) } return br.valuesBuf[valuesBufLen:] } func (br *blockResult) addValue(v string) { valuesBuf := br.valuesBuf if len(valuesBuf) > 0 && v == valuesBuf[len(valuesBuf)-1] { v = valuesBuf[len(valuesBuf)-1] } else { v = br.a.copyString(v) } br.valuesBuf = append(br.valuesBuf, v) } // sizeBytes returns the size of br in bytes. func (br *blockResult) sizeBytes() int { n := int(unsafe.Sizeof(*br)) n += br.a.sizeBytes() n += cap(br.valuesBuf) * int(unsafe.Sizeof(br.valuesBuf[0])) n += cap(br.timestampsBuf) * int(unsafe.Sizeof(br.timestampsBuf[0])) n += cap(br.csBuf) * int(unsafe.Sizeof(br.csBuf[0])) n += cap(br.cs) * int(unsafe.Sizeof(br.cs[0])) return n } // setResultColumns sets the given rcs as br columns. // // The br is valid only until rcs are modified. func (br *blockResult) setResultColumns(rcs []resultColumn, rowsLen int) { br.reset() br.rowsLen = rowsLen for i := range rcs { br.addResultColumn(&rcs[i]) } } func (br *blockResult) addResultColumn(rc *resultColumn) { if len(rc.values) != br.rowsLen { logger.Panicf("BUG: column %q must contain %d rows, but it contains %d rows", rc.name, br.rowsLen, len(rc.values)) } if areConstValues(rc.values) { // This optimization allows reducing memory usage after br cloning br.csBuf = append(br.csBuf, blockResultColumn{ name: rc.name, isConst: true, valuesEncoded: rc.values[:1], }) } else { br.csBuf = append(br.csBuf, blockResultColumn{ name: rc.name, valueType: valueTypeString, valuesEncoded: rc.values, }) } br.csInitialized = false } // initAllColumns initializes all the columns in br. func (br *blockResult) initAllColumns() { unneededColumnNames := br.bs.bsw.so.unneededColumnNames if !slices.Contains(unneededColumnNames, "_time") { // Add _time column br.addTimeColumn() } if !slices.Contains(unneededColumnNames, "_stream_id") { // Add _stream_id column br.addStreamIDColumn() } if !slices.Contains(unneededColumnNames, "_stream") { // Add _stream column if !br.addStreamColumn() { // Skip the current block, since the associated stream tags are missing br.reset() return } } if !slices.Contains(unneededColumnNames, "_msg") { // Add _msg column csh := br.bs.getColumnsHeader() v := csh.getConstColumnValue("_msg") if v != "" { br.addConstColumn("_msg", v) } else if ch := csh.getColumnHeader("_msg"); ch != nil { br.addColumn(ch) } else { br.addConstColumn("_msg", "") } } // Add other const columns csh := br.bs.getColumnsHeader() for _, cc := range csh.constColumns { if isMsgFieldName(cc.Name) { continue } if !slices.Contains(unneededColumnNames, cc.Name) { br.addConstColumn(cc.Name, cc.Value) } } // Add other non-const columns chs := csh.columnHeaders for i := range chs { ch := &chs[i] if isMsgFieldName(ch.name) { continue } if !slices.Contains(unneededColumnNames, ch.name) { br.addColumn(ch) } } br.csInitFast() } // initRequestedColumns initialized only requested columns in br. func (br *blockResult) initRequestedColumns() { for _, columnName := range br.bs.bsw.so.neededColumnNames { switch columnName { case "_stream_id": br.addStreamIDColumn() case "_stream": if !br.addStreamColumn() { // Skip the current block, since the associated stream tags are missing. br.reset() return } case "_time": br.addTimeColumn() default: csh := br.bs.getColumnsHeader() v := csh.getConstColumnValue(columnName) if v != "" { br.addConstColumn(columnName, v) } else if ch := csh.getColumnHeader(columnName); ch != nil { br.addColumn(ch) } else { br.addConstColumn(columnName, "") } } } br.csInitFast() } // mustInit initializes br with the given bs and bm. // // br is valid until bs or bm changes. func (br *blockResult) mustInit(bs *blockSearch, bm *bitmap) { br.reset() br.rowsLen = bm.onesCount() if br.rowsLen == 0 { return } br.bs = bs br.bm = bm } // intersectsTimeRange returns true if br timestamps intersect (minTimestamp .. maxTimestamp) time range. func (br *blockResult) intersectsTimeRange(minTimestamp, maxTimestamp int64) bool { return minTimestamp < br.getMaxTimestamp(minTimestamp) && maxTimestamp > br.getMinTimestamp(maxTimestamp) } func (br *blockResult) getMinTimestamp(minTimestamp int64) int64 { if br.bs != nil { bh := &br.bs.bsw.bh if bh.rowsCount == uint64(br.rowsLen) { return min(minTimestamp, bh.timestampsHeader.minTimestamp) } if minTimestamp <= bh.timestampsHeader.minTimestamp { return minTimestamp } } // Slow path - need to scan timestamps timestamps := br.getTimestamps() for _, timestamp := range timestamps { if timestamp < minTimestamp { minTimestamp = timestamp } } return minTimestamp } func (br *blockResult) getMaxTimestamp(maxTimestamp int64) int64 { if br.bs != nil { bh := &br.bs.bsw.bh if bh.rowsCount == uint64(br.rowsLen) { return max(maxTimestamp, bh.timestampsHeader.maxTimestamp) } if maxTimestamp >= bh.timestampsHeader.maxTimestamp { return maxTimestamp } } // Slow path - need to scan timestamps timestamps := br.getTimestamps() for i := len(timestamps) - 1; i >= 0; i-- { if timestamps[i] > maxTimestamp { maxTimestamp = timestamps[i] } } return maxTimestamp } func (br *blockResult) getTimestamps() []int64 { if br.rowsLen > 0 && len(br.timestampsBuf) == 0 { br.initTimestamps() } return br.timestampsBuf } func (br *blockResult) initTimestamps() { if br.bs == nil { br.timestampsBuf = fastnum.AppendInt64Zeros(br.timestampsBuf[:0], br.rowsLen) return } srcTimestamps := br.bs.getTimestamps() if br.bm.areAllBitsSet() { // Fast path - all the rows in the block are selected, so copy all the timestamps without any filtering. br.timestampsBuf = append(br.timestampsBuf[:0], srcTimestamps...) br.checkTimestampsLen() return } // Slow path - copy only the needed timestamps to br according to filter results. dstTimestamps := br.timestampsBuf[:0] br.bm.forEachSetBitReadonly(func(idx int) { ts := srcTimestamps[idx] dstTimestamps = append(dstTimestamps, ts) }) br.timestampsBuf = dstTimestamps br.checkTimestampsLen() } func (br *blockResult) checkTimestampsLen() { if len(br.timestampsBuf) != br.rowsLen { logger.Panicf("BUG: unexpected number of timestamps; got %d; want %d", len(br.timestampsBuf), br.rowsLen) } } func (br *blockResult) newValuesEncodedFromColumnHeader(bs *blockSearch, bm *bitmap, ch *columnHeader) []string { valuesBufLen := len(br.valuesBuf) switch ch.valueType { case valueTypeString: visitValuesReadonly(bs, ch, bm, br.addValue) case valueTypeDict: visitValuesReadonly(bs, ch, bm, func(v string) { if len(v) != 1 { logger.Panicf("FATAL: %s: unexpected dict value size for column %q; got %d bytes; want 1 byte", bs.partPath(), ch.name, len(v)) } dictIdx := v[0] if int(dictIdx) >= len(ch.valuesDict.values) { logger.Panicf("FATAL: %s: too big dict index for column %q: %d; should be smaller than %d", bs.partPath(), ch.name, dictIdx, len(ch.valuesDict.values)) } br.addValue(v) }) case valueTypeUint8: visitValuesReadonly(bs, ch, bm, func(v string) { if len(v) != 1 { logger.Panicf("FATAL: %s: unexpected size for uint8 column %q; got %d bytes; want 1 byte", bs.partPath(), ch.name, len(v)) } br.addValue(v) }) case valueTypeUint16: visitValuesReadonly(bs, ch, bm, func(v string) { if len(v) != 2 { logger.Panicf("FATAL: %s: unexpected size for uint16 column %q; got %d bytes; want 2 bytes", bs.partPath(), ch.name, len(v)) } br.addValue(v) }) case valueTypeUint32: visitValuesReadonly(bs, ch, bm, func(v string) { if len(v) != 4 { logger.Panicf("FATAL: %s: unexpected size for uint32 column %q; got %d bytes; want 4 bytes", bs.partPath(), ch.name, len(v)) } br.addValue(v) }) case valueTypeUint64: visitValuesReadonly(bs, ch, bm, func(v string) { if len(v) != 8 { logger.Panicf("FATAL: %s: unexpected size for uint64 column %q; got %d bytes; want 8 bytes", bs.partPath(), ch.name, len(v)) } br.addValue(v) }) case valueTypeFloat64: visitValuesReadonly(bs, ch, bm, func(v string) { if len(v) != 8 { logger.Panicf("FATAL: %s: unexpected size for float64 column %q; got %d bytes; want 8 bytes", bs.partPath(), ch.name, len(v)) } br.addValue(v) }) case valueTypeIPv4: visitValuesReadonly(bs, ch, bm, func(v string) { if len(v) != 4 { logger.Panicf("FATAL: %s: unexpected size for ipv4 column %q; got %d bytes; want 4 bytes", bs.partPath(), ch.name, len(v)) } br.addValue(v) }) case valueTypeTimestampISO8601: visitValuesReadonly(bs, ch, bm, func(v string) { if len(v) != 8 { logger.Panicf("FATAL: %s: unexpected size for timestmap column %q; got %d bytes; want 8 bytes", bs.partPath(), ch.name, len(v)) } br.addValue(v) }) default: logger.Panicf("FATAL: %s: unknown valueType=%d for column %q", bs.partPath(), ch.valueType, ch.name) } return br.valuesBuf[valuesBufLen:] } // addColumn adds column for the given ch to br. // // The added column is valid until ch is changed. func (br *blockResult) addColumn(ch *columnHeader) { br.csBuf = append(br.csBuf, blockResultColumn{ name: getCanonicalColumnName(ch.name), valueType: ch.valueType, minValue: ch.minValue, maxValue: ch.maxValue, dictValues: ch.valuesDict.values, }) c := &br.csBuf[len(br.csBuf)-1] br.svecs = append(br.svecs, searchValuesEncodedCreator{ bs: br.bs, bm: br.bm, ch: ch, }) c.valuesEncodedCreator = &br.svecs[len(br.svecs)-1] br.csInitialized = false } type searchValuesEncodedCreator struct { bs *blockSearch bm *bitmap ch *columnHeader } func (svec *searchValuesEncodedCreator) newValuesEncoded(br *blockResult) []string { return br.newValuesEncodedFromColumnHeader(svec.bs, svec.bm, svec.ch) } func (br *blockResult) addTimeColumn() { br.csBuf = append(br.csBuf, blockResultColumn{ name: "_time", isTime: true, }) br.csInitialized = false } func (br *blockResult) addStreamIDColumn() { bb := bbPool.Get() bb.B = br.bs.bsw.bh.streamID.marshalString(bb.B) br.addConstColumn("_stream_id", bytesutil.ToUnsafeString(bb.B)) bbPool.Put(bb) } func (br *blockResult) addStreamColumn() bool { streamStr := br.bs.getStreamStr() if streamStr == "" { return false } br.addConstColumn("_stream", streamStr) return true } func (br *blockResult) addConstColumn(name, value string) { nameCopy := br.a.copyString(name) valuesBufLen := len(br.valuesBuf) br.addValue(value) valuesEncoded := br.valuesBuf[valuesBufLen:] br.csBuf = append(br.csBuf, blockResultColumn{ name: nameCopy, isConst: true, valuesEncoded: valuesEncoded, }) br.csInitialized = false } func (br *blockResult) newValuesBucketedForColumn(c *blockResultColumn, bf *byStatsField) []string { if c.isConst { v := c.valuesEncoded[0] return br.getBucketedConstValues(v, bf) } if c.isTime { return br.getBucketedTimestampValues(bf) } valuesEncoded := c.getValuesEncoded(br) switch c.valueType { case valueTypeString: return br.getBucketedStringValues(valuesEncoded, bf) case valueTypeDict: return br.getBucketedDictValues(valuesEncoded, c.dictValues, bf) case valueTypeUint8: return br.getBucketedUint8Values(valuesEncoded, bf) case valueTypeUint16: return br.getBucketedUint16Values(valuesEncoded, bf) case valueTypeUint32: return br.getBucketedUint32Values(valuesEncoded, bf) case valueTypeUint64: return br.getBucketedUint64Values(valuesEncoded, bf) case valueTypeFloat64: return br.getBucketedFloat64Values(valuesEncoded, bf) case valueTypeIPv4: return br.getBucketedIPv4Values(valuesEncoded, bf) case valueTypeTimestampISO8601: return br.getBucketedTimestampISO8601Values(valuesEncoded, bf) default: logger.Panicf("BUG: unknown valueType=%d", c.valueType) return nil } } func (br *blockResult) getBucketedConstValues(v string, bf *byStatsField) []string { if v == "" { // Fast path - return a slice of empty strings without constructing the slice. return getEmptyStrings(br.rowsLen) } // Slower path - construct slice of identical values with the length equal to br.rowsLen valuesBuf := br.valuesBuf valuesBufLen := len(valuesBuf) v = br.getBucketedValue(v, bf) for i := 0; i < br.rowsLen; i++ { valuesBuf = append(valuesBuf, v) } br.valuesBuf = valuesBuf return valuesBuf[valuesBufLen:] } func (br *blockResult) getBucketedTimestampValues(bf *byStatsField) []string { buf := br.a.b valuesBuf := br.valuesBuf valuesBufLen := len(valuesBuf) timestamps := br.getTimestamps() var s string if !bf.hasBucketConfig() { for i := range timestamps { if i > 0 && timestamps[i-1] == timestamps[i] { valuesBuf = append(valuesBuf, s) continue } bufLen := len(buf) buf = marshalTimestampRFC3339NanoString(buf, timestamps[i]) s = bytesutil.ToUnsafeString(buf[bufLen:]) valuesBuf = append(valuesBuf, s) } } else { bucketSizeInt := int64(bf.bucketSize) if bucketSizeInt <= 0 { bucketSizeInt = 1 } bucketOffsetInt := int64(bf.bucketOffset) timestampPrev := int64(0) for i := range timestamps { if i > 0 && timestamps[i-1] == timestamps[i] { valuesBuf = append(valuesBuf, s) continue } timestamp := timestamps[i] timestamp -= bucketOffsetInt if bf.bucketSizeStr == "month" { timestamp = truncateTimestampToMonth(timestamp) } else if bf.bucketSizeStr == "year" { timestamp = truncateTimestampToYear(timestamp) } else { timestamp -= timestamp % bucketSizeInt } timestamp += bucketOffsetInt if i > 0 && timestampPrev == timestamp { valuesBuf = append(valuesBuf, s) continue } timestampPrev = timestamp bufLen := len(buf) buf = marshalTimestampRFC3339NanoString(buf, timestamp) s = bytesutil.ToUnsafeString(buf[bufLen:]) valuesBuf = append(valuesBuf, s) } } br.a.b = buf br.valuesBuf = valuesBuf return valuesBuf[valuesBufLen:] } func (br *blockResult) getBucketedStringValues(values []string, bf *byStatsField) []string { if !bf.hasBucketConfig() { return values } valuesBuf := br.valuesBuf valuesBufLen := len(valuesBuf) var s string for i := range values { if i > 0 && values[i-1] == values[i] { valuesBuf = append(valuesBuf, s) continue } s = br.getBucketedValue(values[i], bf) valuesBuf = append(valuesBuf, s) } br.valuesBuf = valuesBuf return valuesBuf[valuesBufLen:] } func (br *blockResult) getBucketedDictValues(valuesEncoded, dictValues []string, bf *byStatsField) []string { valuesBuf := br.valuesBuf valuesBufLen := len(valuesBuf) dictValues = br.getBucketedStringValues(dictValues, bf) for _, v := range valuesEncoded { dictIdx := v[0] valuesBuf = append(valuesBuf, dictValues[dictIdx]) } br.valuesBuf = valuesBuf return valuesBuf[valuesBufLen:] } func (br *blockResult) getBucketedUint8Values(valuesEncoded []string, bf *byStatsField) []string { buf := br.a.b valuesBuf := br.valuesBuf valuesBufLen := len(valuesBuf) var s string if !bf.hasBucketConfig() { for i, v := range valuesEncoded { if i > 0 && valuesEncoded[i-1] == valuesEncoded[i] { valuesBuf = append(valuesBuf, s) continue } n := unmarshalUint8(v) bufLen := len(buf) buf = marshalUint8String(buf, n) s = bytesutil.ToUnsafeString(buf[bufLen:]) valuesBuf = append(valuesBuf, s) } } else { bucketSizeInt := uint64(bf.bucketSize) if bucketSizeInt <= 0 { bucketSizeInt = 1 } bucketOffsetInt := uint64(int64(bf.bucketOffset)) nPrev := uint64(0) for i, v := range valuesEncoded { if i > 0 && valuesEncoded[i-1] == valuesEncoded[i] { valuesBuf = append(valuesBuf, s) continue } n := uint64(unmarshalUint8(v)) n -= bucketOffsetInt n -= n % bucketSizeInt n += bucketOffsetInt if i > 0 && nPrev == n { valuesBuf = append(valuesBuf, s) continue } nPrev = n bufLen := len(buf) buf = marshalUint64String(buf, n) s = bytesutil.ToUnsafeString(buf[bufLen:]) valuesBuf = append(valuesBuf, s) } } br.valuesBuf = valuesBuf br.a.b = buf return br.valuesBuf[valuesBufLen:] } func (br *blockResult) getBucketedUint16Values(valuesEncoded []string, bf *byStatsField) []string { buf := br.a.b valuesBuf := br.valuesBuf valuesBufLen := len(valuesBuf) var s string if !bf.hasBucketConfig() { for i, v := range valuesEncoded { if i > 0 && valuesEncoded[i-1] == valuesEncoded[i] { valuesBuf = append(valuesBuf, s) continue } n := unmarshalUint16(v) bufLen := len(buf) buf = marshalUint16String(buf, n) s = bytesutil.ToUnsafeString(buf[bufLen:]) valuesBuf = append(valuesBuf, s) } } else { bucketSizeInt := uint64(bf.bucketSize) if bucketSizeInt <= 0 { bucketSizeInt = 1 } bucketOffsetInt := uint64(int64(bf.bucketOffset)) nPrev := uint64(0) for i, v := range valuesEncoded { if i > 0 && valuesEncoded[i-1] == valuesEncoded[i] { valuesBuf = append(valuesBuf, s) continue } n := uint64(unmarshalUint16(v)) n -= bucketOffsetInt n -= n % bucketSizeInt n += bucketOffsetInt if i > 0 && nPrev == n { valuesBuf = append(valuesBuf, s) continue } nPrev = n bufLen := len(buf) buf = marshalUint64String(buf, n) s = bytesutil.ToUnsafeString(buf[bufLen:]) valuesBuf = append(valuesBuf, s) } } br.valuesBuf = valuesBuf br.a.b = buf return br.valuesBuf[valuesBufLen:] } func (br *blockResult) getBucketedUint32Values(valuesEncoded []string, bf *byStatsField) []string { buf := br.a.b valuesBuf := br.valuesBuf valuesBufLen := len(valuesBuf) var s string if !bf.hasBucketConfig() { for i, v := range valuesEncoded { if i > 0 && valuesEncoded[i-1] == valuesEncoded[i] { valuesBuf = append(valuesBuf, s) continue } n := unmarshalUint32(v) bufLen := len(buf) buf = marshalUint32String(buf, n) s = bytesutil.ToUnsafeString(buf[bufLen:]) valuesBuf = append(valuesBuf, s) } } else { bucketSizeInt := uint64(bf.bucketSize) if bucketSizeInt <= 0 { bucketSizeInt = 1 } bucketOffsetInt := uint64(int64(bf.bucketOffset)) nPrev := uint64(0) for i, v := range valuesEncoded { if i > 0 && valuesEncoded[i-1] == valuesEncoded[i] { valuesBuf = append(valuesBuf, s) continue } n := uint64(unmarshalUint32(v)) n -= bucketOffsetInt n -= n % bucketSizeInt n += bucketOffsetInt if i > 0 && nPrev == n { valuesBuf = append(valuesBuf, s) continue } nPrev = n bufLen := len(buf) buf = marshalUint64String(buf, n) s = bytesutil.ToUnsafeString(buf[bufLen:]) valuesBuf = append(valuesBuf, s) } } br.valuesBuf = valuesBuf br.a.b = buf return br.valuesBuf[valuesBufLen:] } func (br *blockResult) getBucketedUint64Values(valuesEncoded []string, bf *byStatsField) []string { buf := br.a.b valuesBuf := br.valuesBuf valuesBufLen := len(valuesBuf) var s string if !bf.hasBucketConfig() { for i, v := range valuesEncoded { if i > 0 && valuesEncoded[i-1] == valuesEncoded[i] { valuesBuf = append(valuesBuf, s) continue } n := unmarshalUint64(v) bufLen := len(buf) buf = marshalUint64String(buf, n) s = bytesutil.ToUnsafeString(buf[bufLen:]) valuesBuf = append(valuesBuf, s) } } else { bucketSizeInt := uint64(bf.bucketSize) if bucketSizeInt <= 0 { bucketSizeInt = 1 } bucketOffsetInt := uint64(int64(bf.bucketOffset)) nPrev := uint64(0) for i, v := range valuesEncoded { if i > 0 && valuesEncoded[i-1] == valuesEncoded[i] { valuesBuf = append(valuesBuf, s) continue } n := unmarshalUint64(v) n -= bucketOffsetInt n -= n % bucketSizeInt n += bucketOffsetInt if i > 0 && nPrev == n { valuesBuf = append(valuesBuf, s) continue } nPrev = n bufLen := len(buf) buf = marshalUint64String(buf, n) s = bytesutil.ToUnsafeString(buf[bufLen:]) valuesBuf = append(valuesBuf, s) } } br.valuesBuf = valuesBuf br.a.b = buf return br.valuesBuf[valuesBufLen:] } func (br *blockResult) getBucketedFloat64Values(valuesEncoded []string, bf *byStatsField) []string { buf := br.a.b valuesBuf := br.valuesBuf valuesBufLen := len(valuesBuf) var s string if !bf.hasBucketConfig() { for i, v := range valuesEncoded { if i > 0 && valuesEncoded[i-1] == valuesEncoded[i] { valuesBuf = append(valuesBuf, s) continue } f := unmarshalFloat64(v) bufLen := len(buf) buf = marshalFloat64String(buf, f) s = bytesutil.ToUnsafeString(buf[bufLen:]) valuesBuf = append(valuesBuf, s) } } else { bucketSize := bf.bucketSize if bucketSize <= 0 { bucketSize = 1 } _, e := decimal.FromFloat(bucketSize) p10 := math.Pow10(int(-e)) bucketSizeP10 := int64(bucketSize * p10) fPrev := float64(0) for i, v := range valuesEncoded { if i > 0 && valuesEncoded[i-1] == valuesEncoded[i] { valuesBuf = append(valuesBuf, s) continue } f := unmarshalFloat64(v) f -= bf.bucketOffset // emulate f % bucketSize for float64 values fP10 := int64(f * p10) fP10 -= fP10 % bucketSizeP10 f = float64(fP10) / p10 f += bf.bucketOffset if fPrev == f { valuesBuf = append(valuesBuf, s) continue } fPrev = f bufLen := len(buf) buf = marshalFloat64String(buf, f) s = bytesutil.ToUnsafeString(buf[bufLen:]) valuesBuf = append(valuesBuf, s) } } br.valuesBuf = valuesBuf br.a.b = buf return br.valuesBuf[valuesBufLen:] } func (br *blockResult) getBucketedIPv4Values(valuesEncoded []string, bf *byStatsField) []string { buf := br.a.b valuesBuf := br.valuesBuf valuesBufLen := len(valuesBuf) var s string if !bf.hasBucketConfig() { for i, v := range valuesEncoded { if i > 0 && valuesEncoded[i-1] == valuesEncoded[i] { valuesBuf = append(valuesBuf, s) continue } ip := unmarshalIPv4(v) bufLen := len(buf) buf = marshalIPv4String(buf, ip) s = bytesutil.ToUnsafeString(buf[bufLen:]) valuesBuf = append(valuesBuf, s) } } else { bucketSizeInt := uint32(bf.bucketSize) if bucketSizeInt <= 0 { bucketSizeInt = 1 } bucketOffsetInt := uint32(int32(bf.bucketOffset)) nPrev := uint32(0) for i, v := range valuesEncoded { if i > 0 && valuesEncoded[i-1] == valuesEncoded[i] { valuesBuf = append(valuesBuf, s) continue } n := unmarshalIPv4(v) n -= bucketOffsetInt n -= n % bucketSizeInt n += bucketOffsetInt if i > 0 && nPrev == n { valuesBuf = append(valuesBuf, s) continue } nPrev = n bufLen := len(buf) buf = marshalIPv4String(buf, n) s = bytesutil.ToUnsafeString(buf[bufLen:]) valuesBuf = append(valuesBuf, s) } } br.valuesBuf = valuesBuf br.a.b = buf return valuesBuf[valuesBufLen:] } func (br *blockResult) getBucketedTimestampISO8601Values(valuesEncoded []string, bf *byStatsField) []string { buf := br.a.b valuesBuf := br.valuesBuf valuesBufLen := len(valuesBuf) var s string if !bf.hasBucketConfig() { for i, v := range valuesEncoded { if i > 0 && valuesEncoded[i-1] == valuesEncoded[i] { valuesBuf = append(valuesBuf, s) continue } n := unmarshalTimestampISO8601(v) bufLen := len(buf) buf = marshalTimestampISO8601String(buf, n) s = bytesutil.ToUnsafeString(buf[bufLen:]) valuesBuf = append(valuesBuf, s) } } else { bucketSizeInt := int64(bf.bucketSize) if bucketSizeInt <= 0 { bucketSizeInt = 1 } bucketOffsetInt := int64(bf.bucketOffset) timestampPrev := int64(0) bb := bbPool.Get() for i, v := range valuesEncoded { if i > 0 && valuesEncoded[i-1] == valuesEncoded[i] { valuesBuf = append(valuesBuf, s) continue } timestamp := unmarshalTimestampISO8601(v) timestamp -= bucketOffsetInt if bf.bucketSizeStr == "month" { timestamp = truncateTimestampToMonth(timestamp) } else if bf.bucketSizeStr == "year" { timestamp = truncateTimestampToYear(timestamp) } else { timestamp -= timestamp % bucketSizeInt } timestamp -= timestamp % bucketSizeInt timestamp += bucketOffsetInt if timestampPrev == timestamp { valuesBuf = append(valuesBuf, s) continue } timestampPrev = timestamp bufLen := len(buf) buf = marshalTimestampISO8601String(buf, timestamp) s = bytesutil.ToUnsafeString(buf[bufLen:]) valuesBuf = append(valuesBuf, s) } bbPool.Put(bb) } br.valuesBuf = valuesBuf br.a.b = buf return valuesBuf[valuesBufLen:] } // getBucketedValue returns bucketed s according to the given bf func (br *blockResult) getBucketedValue(s string, bf *byStatsField) string { if !bf.hasBucketConfig() { return s } if len(s) == 0 { return s } c := s[0] if (c < '0' || c > '9') && c != '-' { // Fast path - the value cannot be bucketed, since it starts with unexpected chars. return s } if f, ok := tryParseFloat64(s); ok { bucketSize := bf.bucketSize if bucketSize <= 0 { bucketSize = 1 } f -= bf.bucketOffset // emulate f % bucketSize for float64 values _, e := decimal.FromFloat(bucketSize) p10 := math.Pow10(int(-e)) fP10 := int64(f * p10) fP10 -= fP10 % int64(bucketSize*p10) f = float64(fP10) / p10 f += bf.bucketOffset buf := br.a.b bufLen := len(buf) buf = marshalFloat64String(buf, f) br.a.b = buf return bytesutil.ToUnsafeString(buf[bufLen:]) } // There is no need in calling tryParseTimestampISO8601 here, since TryParseTimestampRFC3339Nano // should successfully parse ISO8601 timestamps. if timestamp, ok := TryParseTimestampRFC3339Nano(s); ok { bucketSizeInt := int64(bf.bucketSize) if bucketSizeInt <= 0 { bucketSizeInt = 1 } bucketOffset := int64(bf.bucketOffset) timestamp -= bucketOffset if bf.bucketSizeStr == "month" { timestamp = truncateTimestampToMonth(timestamp) } else if bf.bucketSizeStr == "year" { timestamp = truncateTimestampToYear(timestamp) } else { timestamp -= timestamp % bucketSizeInt } timestamp += bucketOffset buf := br.a.b bufLen := len(buf) buf = marshalTimestampRFC3339NanoString(buf, timestamp) br.a.b = buf return bytesutil.ToUnsafeString(buf[bufLen:]) } if n, ok := tryParseIPv4(s); ok { bucketSizeInt := uint32(bf.bucketSize) if bucketSizeInt <= 0 { bucketSizeInt = 1 } bucketOffset := uint32(int32(bf.bucketOffset)) n -= bucketOffset n -= n % bucketSizeInt n += bucketOffset buf := br.a.b bufLen := len(buf) buf = marshalIPv4String(buf, n) br.a.b = buf return bytesutil.ToUnsafeString(buf[bufLen:]) } if nsecs, ok := tryParseDuration(s); ok { bucketSizeInt := int64(bf.bucketSize) if bucketSizeInt <= 0 { bucketSizeInt = 1 } bucketOffset := int64(bf.bucketOffset) nsecs -= bucketOffset nsecs -= nsecs % bucketSizeInt nsecs += bucketOffset buf := br.a.b bufLen := len(buf) buf = marshalDurationString(buf, nsecs) br.a.b = buf return bytesutil.ToUnsafeString(buf[bufLen:]) } // Couldn't parse s, so return it as is. return s } // copyColumns copies columns from srcColumnNames to dstColumnNames. func (br *blockResult) copyColumns(srcColumnNames, dstColumnNames []string) { for i, srcName := range srcColumnNames { br.copySingleColumn(srcName, dstColumnNames[i]) } } func (br *blockResult) copySingleColumn(srcName, dstName string) { found := false cs := br.getColumns() csBufLen := len(br.csBuf) for _, c := range cs { if c.name != dstName { br.csBuf = append(br.csBuf, *c) } if c.name == srcName { cCopy := *c cCopy.name = dstName br.csBuf = append(br.csBuf, cCopy) found = true } } if !found { br.addConstColumn(dstName, "") } br.csBuf = append(br.csBuf[:0], br.csBuf[csBufLen:]...) br.csInitialized = false } // renameColumns renames columns from srcColumnNames to dstColumnNames. func (br *blockResult) renameColumns(srcColumnNames, dstColumnNames []string) { for i, srcName := range srcColumnNames { br.renameSingleColumn(srcName, dstColumnNames[i]) } } func (br *blockResult) renameSingleColumn(srcName, dstName string) { found := false cs := br.getColumns() csBufLen := len(br.csBuf) for _, c := range cs { if c.name == srcName { cCopy := *c cCopy.name = dstName br.csBuf = append(br.csBuf, cCopy) found = true } else if c.name != dstName { br.csBuf = append(br.csBuf, *c) } } if !found { br.addConstColumn(dstName, "") } br.csBuf = append(br.csBuf[:0], br.csBuf[csBufLen:]...) br.csInitialized = false } // deleteColumns deletes columns with the given columnNames. func (br *blockResult) deleteColumns(columnNames []string) { if len(columnNames) == 0 { return } cs := br.getColumns() csBufLen := len(br.csBuf) for _, c := range cs { if !slices.Contains(columnNames, c.name) { br.csBuf = append(br.csBuf, *c) } } br.csBuf = append(br.csBuf[:0], br.csBuf[csBufLen:]...) br.csInitialized = false } // setColumns sets the resulting columns to the given columnNames. func (br *blockResult) setColumns(columnNames []string) { if br.areSameColumns(columnNames) { // Fast path - nothing to change. return } // Slow path - construct the requested columns cs := br.getColumns() csBufLen := len(br.csBuf) for _, c := range cs { if slices.Contains(columnNames, c.name) { br.csBuf = append(br.csBuf, *c) } } for _, columnName := range columnNames { if idx := getBlockResultColumnIdxByName(cs, columnName); idx < 0 { br.addConstColumn(columnName, "") } } br.csBuf = append(br.csBuf[:0], br.csBuf[csBufLen:]...) br.csInitialized = false } func (br *blockResult) areSameColumns(columnNames []string) bool { cs := br.getColumns() if len(cs) != len(columnNames) { return false } for i, c := range cs { if c.name != columnNames[i] { return false } } return true } func (br *blockResult) getColumnByName(columnName string) *blockResultColumn { if columnName == "" { columnName = "_msg" } cs := br.getColumns() idx := getBlockResultColumnIdxByName(cs, columnName) if idx >= 0 { return cs[idx] } // Search for empty column with the given name csEmpty := br.csEmpty for i := range csEmpty { if csEmpty[i].name == columnName { return &csEmpty[i] } } // Create missing empty column br.csEmpty = append(br.csEmpty, blockResultColumn{ name: br.a.copyString(columnName), isConst: true, valuesEncoded: getEmptyStrings(1), }) return &br.csEmpty[len(br.csEmpty)-1] } func (br *blockResult) getColumns() []*blockResultColumn { if !br.csInitialized { br.csInit() } return br.cs } func (br *blockResult) csInit() { csBuf := br.csBuf clear(br.cs) cs := br.cs[:0] for i := range csBuf { c := &csBuf[i] idx := getBlockResultColumnIdxByName(cs, c.name) if idx >= 0 { cs[idx] = c } else { cs = append(cs, c) } } br.cs = cs br.csInitialized = true } func (br *blockResult) csInitFast() { csBuf := br.csBuf clear(br.cs) cs := slicesutil.SetLength(br.cs, len(csBuf)) for i := range csBuf { cs[i] = &csBuf[i] } br.cs = cs br.csInitialized = true } func getBlockResultColumnIdxByName(cs []*blockResultColumn, name string) int { for i, c := range cs { if c.name == name { return i } } return -1 } func (br *blockResult) skipRows(skipRows int) { timestamps := br.getTimestamps() br.timestampsBuf = append(br.timestampsBuf[:0], timestamps[skipRows:]...) br.rowsLen -= skipRows br.checkTimestampsLen() for _, c := range br.getColumns() { if c.values != nil { c.values = append(c.values[:0], c.values[skipRows:]...) } if c.isConst { continue } valuesEncoded := c.getValuesEncoded(br) if valuesEncoded != nil { c.valuesEncoded = append(valuesEncoded[:0], valuesEncoded[skipRows:]...) } if c.valuesBucketed != nil { c.valuesBucketed = append(c.valuesBucketed[:0], c.valuesBucketed[skipRows:]...) } } } func (br *blockResult) truncateRows(keepRows int) { timestamps := br.getTimestamps() br.timestampsBuf = append(br.timestampsBuf[:0], timestamps[:keepRows]...) br.rowsLen = keepRows br.checkTimestampsLen() for _, c := range br.getColumns() { if c.values != nil { c.values = c.values[:keepRows] } if c.isConst { continue } valuesEncoded := c.getValuesEncoded(br) if valuesEncoded != nil { c.valuesEncoded = valuesEncoded[:keepRows] } if c.valuesBucketed != nil { c.valuesBucketed = append(c.valuesBucketed[:0], c.valuesBucketed[keepRows:]...) } } } // blockResultColumn represents named column from blockResult. // // blockResultColumn doesn't own any referred data - all the referred data must be owned by blockResult. // This simplifies copying, resetting and re-using of the struct. type blockResultColumn struct { // name is column name name string // isConst is set to true if the column is const. // // The column value is stored in valuesEncoded[0] isConst bool // isTime is set to true if the column contains _time values. // // The column values are stored in blockResult.timestamps, while valuesEncoded is nil. isTime bool // valueType is the type of non-cost value valueType valueType // minValue is the minimum encoded value for uint*, ipv4, timestamp and float64 value // // It is used for fast detection of whether the given column contains values in the given range minValue uint64 // maxValue is the maximum encoded value for uint*, ipv4, timestamp and float64 value // // It is used for fast detection of whether the given column contains values in the given range maxValue uint64 // dictValues contains dict values for valueType=valueTypeDict. dictValues []string // valuesEncoded contains encoded values for non-const and non-time column after getValuesEncoded() call valuesEncoded []string // values contains decoded values after getValues() call values []string // valuesBucketed contains values after getValuesBucketed() call valuesBucketed []string // valuesEncodedCreator must return valuesEncoded. // // This interface must be set for non-const and non-time columns if valuesEncoded field isn't set. valuesEncodedCreator columnValuesEncodedCreator // bucketSizeStr contains bucketSizeStr for valuesBucketed bucketSizeStr string // bucketOffsetStr contains bucketOffset for valuesBucketed bucketOffsetStr string } // columnValuesEncodedCreator must return encoded values for the current column. type columnValuesEncodedCreator interface { newValuesEncoded(br *blockResult) []string } // clone returns a clone of c backed by data from br. // // It is expected that c.valuesEncoded is already initialized for non-time column. // // The clone is valid until br is reset. func (c *blockResultColumn) clone(br *blockResult) blockResultColumn { var cNew blockResultColumn cNew.name = br.a.copyString(c.name) cNew.isConst = c.isConst cNew.isTime = c.isTime cNew.valueType = c.valueType cNew.minValue = c.minValue cNew.maxValue = c.maxValue cNew.dictValues = br.cloneValues(c.dictValues) if !c.isTime && c.valuesEncoded == nil { logger.Panicf("BUG: valuesEncoded must be non-nil for non-time column %q; isConst=%v; valueType=%d", c.name, c.isConst, c.valueType) } cNew.valuesEncoded = br.cloneValues(c.valuesEncoded) if c.valueType != valueTypeString { cNew.values = br.cloneValues(c.values) } cNew.valuesBucketed = br.cloneValues(c.valuesBucketed) // Do not copy c.valuesEncodedCreator, since it may refer to data, which may change over time. // We already copied c.valuesEncoded, so cNew.valuesEncodedCreator must be nil. cNew.bucketSizeStr = c.bucketSizeStr cNew.bucketOffsetStr = c.bucketOffsetStr return cNew } func (c *blockResultColumn) neededBackingBufLen() int { n := len(c.name) n += valuesSizeBytes(c.dictValues) n += valuesSizeBytes(c.valuesEncoded) if c.valueType != valueTypeString { n += valuesSizeBytes(c.values) } n += valuesSizeBytes(c.valuesBucketed) return n } func (c *blockResultColumn) neededBackingValuesBufLen() int { n := 0 n += len(c.dictValues) n += len(c.valuesEncoded) if c.valueType != valueTypeString { n += len(c.values) } n += len(c.valuesBucketed) return n } func valuesSizeBytes(values []string) int { n := 0 for _, v := range values { n += len(v) } return n } // getValueAtRow returns value for the value at the given rowIdx. // // The returned value is valid until br.reset() is called. func (c *blockResultColumn) getValueAtRow(br *blockResult, rowIdx int) string { if c.isConst { // Fast path for const column. return c.valuesEncoded[0] } if c.values != nil { // Fast path, which avoids call overhead for getValues(). return c.values[rowIdx] } // Slow path - decode all the values and return the given value. values := c.getValues(br) return values[rowIdx] } // getValuesBucketed returns values for the given column, bucketed according to bf. // // The returned values are valid until br.reset() is called. func (c *blockResultColumn) getValuesBucketed(br *blockResult, bf *byStatsField) []string { if !bf.hasBucketConfig() { return c.getValues(br) } if values := c.valuesBucketed; values != nil && c.bucketSizeStr == bf.bucketSizeStr && c.bucketOffsetStr == bf.bucketOffsetStr { return values } c.valuesBucketed = br.newValuesBucketedForColumn(c, bf) c.bucketSizeStr = bf.bucketSizeStr c.bucketOffsetStr = bf.bucketOffsetStr return c.valuesBucketed } // getValues returns values for the given column. // // The returned values are valid until br.reset() is called. func (c *blockResultColumn) getValues(br *blockResult) []string { if values := c.values; values != nil { return values } c.values = br.newValuesBucketedForColumn(c, zeroByStatsField) return c.values } // getValuesEncoded returns encoded values for the given column. // // The returned values are valid until br.reset() is called. func (c *blockResultColumn) getValuesEncoded(br *blockResult) []string { if c.isTime { return nil } if c.valuesEncoded == nil { c.valuesEncoded = c.valuesEncodedCreator.newValuesEncoded(br) } return c.valuesEncoded } // forEachDictValue calls f for every value in the column dictionary. func (c *blockResultColumn) forEachDictValue(br *blockResult, f func(v string)) { if c.valueType != valueTypeDict { logger.Panicf("BUG: unexpected column valueType=%d; want %d", c.valueType, valueTypeDict) } if br.bs != nil && uint64(br.rowsLen) == br.bs.bsw.bh.rowsCount { // Fast path - there is no need in reading encoded values for _, v := range c.dictValues { f(v) } return } // Slow path - need to read encoded values in order filter not referenced columns. a := encoding.GetUint64s(len(c.dictValues)) hits := a.A clear(hits) valuesEncoded := c.getValuesEncoded(br) for _, v := range valuesEncoded { idx := unmarshalUint8(v) hits[idx]++ } for i, v := range c.dictValues { if h := hits[i]; h > 0 { f(v) } } encoding.PutUint64s(a) } // forEachDictValueWithHits calls f for every value in the column dictionary. // // hits is the number of rows with the given value v in the column. func (c *blockResultColumn) forEachDictValueWithHits(br *blockResult, f func(v string, hits uint64)) { if c.valueType != valueTypeDict { logger.Panicf("BUG: unexpected column valueType=%d; want %d", c.valueType, valueTypeDict) } a := encoding.GetUint64s(len(c.dictValues)) hits := a.A clear(hits) valuesEncoded := c.getValuesEncoded(br) for _, v := range valuesEncoded { idx := unmarshalUint8(v) hits[idx]++ } for i, v := range c.dictValues { if h := hits[i]; h > 0 { f(v, h) } } encoding.PutUint64s(a) } func (c *blockResultColumn) getFloatValueAtRow(br *blockResult, rowIdx int) (float64, bool) { if c.isConst { v := c.valuesEncoded[0] return tryParseFloat64(v) } if c.isTime { return 0, false } valuesEncoded := c.getValuesEncoded(br) switch c.valueType { case valueTypeString: v := valuesEncoded[rowIdx] return tryParseFloat64(v) case valueTypeDict: dictIdx := valuesEncoded[rowIdx][0] v := c.dictValues[dictIdx] return tryParseFloat64(v) case valueTypeUint8: v := valuesEncoded[rowIdx] return float64(unmarshalUint8(v)), true case valueTypeUint16: v := valuesEncoded[rowIdx] return float64(unmarshalUint16(v)), true case valueTypeUint32: v := valuesEncoded[rowIdx] return float64(unmarshalUint32(v)), true case valueTypeUint64: v := valuesEncoded[rowIdx] return float64(unmarshalUint64(v)), true case valueTypeFloat64: v := valuesEncoded[rowIdx] f := unmarshalFloat64(v) return f, !math.IsNaN(f) case valueTypeIPv4: return 0, false case valueTypeTimestampISO8601: return 0, false default: logger.Panicf("BUG: unknown valueType=%d", c.valueType) return 0, false } } func (c *blockResultColumn) sumLenValues(br *blockResult) uint64 { if c.isConst { v := c.valuesEncoded[0] return uint64(len(v)) * uint64(br.rowsLen) } if c.isTime { return uint64(len(time.RFC3339Nano)) * uint64(br.rowsLen) } switch c.valueType { case valueTypeString: return c.sumLenStringValues(br) case valueTypeDict: n := uint64(0) dictValues := c.dictValues for _, v := range c.getValuesEncoded(br) { idx := v[0] v := dictValues[idx] n += uint64(len(v)) } return n case valueTypeUint8: return c.sumLenStringValues(br) case valueTypeUint16: return c.sumLenStringValues(br) case valueTypeUint32: return c.sumLenStringValues(br) case valueTypeUint64: return c.sumLenStringValues(br) case valueTypeFloat64: return c.sumLenStringValues(br) case valueTypeIPv4: return c.sumLenStringValues(br) case valueTypeTimestampISO8601: return uint64(len(iso8601Timestamp)) * uint64(br.rowsLen) default: logger.Panicf("BUG: unknown valueType=%d", c.valueType) return 0 } } func (c *blockResultColumn) sumLenStringValues(br *blockResult) uint64 { n := uint64(0) for _, v := range c.getValues(br) { n += uint64(len(v)) } return n } func (c *blockResultColumn) sumValues(br *blockResult) (float64, int) { if c.isConst { v := c.valuesEncoded[0] f, ok := tryParseFloat64(v) if !ok { return 0, 0 } return f * float64(br.rowsLen), br.rowsLen } if c.isTime { return 0, 0 } switch c.valueType { case valueTypeString: sum := float64(0) count := 0 f := float64(0) ok := false values := c.getValuesEncoded(br) for i := range values { if i == 0 || values[i-1] != values[i] { f, ok = tryParseNumber(values[i]) } if ok { sum += f count++ } } return sum, count case valueTypeDict: dictValues := c.dictValues a := encoding.GetFloat64s(len(dictValues)) dictValuesFloat := a.A for i, v := range dictValues { f, ok := tryParseNumber(v) if !ok { f = nan } dictValuesFloat[i] = f } sum := float64(0) count := 0 for _, v := range c.getValuesEncoded(br) { dictIdx := v[0] f := dictValuesFloat[dictIdx] if !math.IsNaN(f) { sum += f count++ } } encoding.PutFloat64s(a) return sum, count case valueTypeUint8: sum := uint64(0) for _, v := range c.getValuesEncoded(br) { sum += uint64(unmarshalUint8(v)) } return float64(sum), br.rowsLen case valueTypeUint16: sum := uint64(0) for _, v := range c.getValuesEncoded(br) { sum += uint64(unmarshalUint16(v)) } return float64(sum), br.rowsLen case valueTypeUint32: sum := uint64(0) for _, v := range c.getValuesEncoded(br) { sum += uint64(unmarshalUint32(v)) } return float64(sum), br.rowsLen case valueTypeUint64: sum := float64(0) for _, v := range c.getValuesEncoded(br) { sum += float64(unmarshalUint64(v)) } return sum, br.rowsLen case valueTypeFloat64: sum := float64(0) for _, v := range c.getValuesEncoded(br) { f := unmarshalFloat64(v) if !math.IsNaN(f) { sum += f } } return sum, br.rowsLen case valueTypeIPv4: return 0, 0 case valueTypeTimestampISO8601: return 0, 0 default: logger.Panicf("BUG: unknown valueType=%d", c.valueType) return 0, 0 } } // resultColumn represents a column with result values. // // It doesn't own the result values. type resultColumn struct { // name is column name. name string // values is the result values. values []string } func (rc *resultColumn) reset() { rc.name = "" rc.resetValues() } func (rc *resultColumn) resetValues() { clear(rc.values) rc.values = rc.values[:0] } func appendResultColumnWithName(dst []resultColumn, name string) []resultColumn { dst = slicesutil.SetLength(dst, len(dst)+1) rc := &dst[len(dst)-1] rc.name = name rc.resetValues() return dst } // addValue adds the given values v to rc. // // rc is valid until v is modified. func (rc *resultColumn) addValue(v string) { rc.values = append(rc.values, v) } func truncateTimestampToMonth(timestamp int64) int64 { t := time.Unix(0, timestamp).UTC() return time.Date(t.Year(), t.Month(), 1, 0, 0, 0, 0, time.UTC).UnixNano() } func truncateTimestampToYear(timestamp int64) int64 { t := time.Unix(0, timestamp).UTC() return time.Date(t.Year(), time.January, 1, 0, 0, 0, 0, time.UTC).UnixNano() } func getEmptyStrings(rowsLen int) []string { p := emptyStrings.Load() if p == nil { values := make([]string, rowsLen) emptyStrings.Store(&values) return values } values := *p return slicesutil.SetLength(values, rowsLen) } var emptyStrings atomic.Pointer[[]string] func visitValuesReadonly(bs *blockSearch, ch *columnHeader, bm *bitmap, f func(value string)) { if bm.isZero() { // Fast path - nothing to visit return } values := bs.getValuesForColumn(ch) bm.forEachSetBitReadonly(func(idx int) { f(values[idx]) }) } func getCanonicalColumnName(columnName string) string { if columnName == "" { return "_msg" } return columnName } func tryParseNumber(s string) (float64, bool) { if len(s) == 0 { return 0, false } f, ok := tryParseFloat64(s) if ok { return f, true } nsecs, ok := tryParseDuration(s) if ok { return float64(nsecs), true } bytes, ok := tryParseBytes(s) if ok { return float64(bytes), true } if isLikelyNumber(s) { f, err := strconv.ParseFloat(s, 64) if err == nil { return f, true } n, err := strconv.ParseInt(s, 0, 64) if err == nil { return float64(n), true } } return 0, false } func isLikelyNumber(s string) bool { if !isNumberPrefix(s) { return false } if strings.Count(s, ".") > 1 { // This is likely IP address return false } if strings.IndexByte(s, ':') >= 0 || strings.Count(s, "-") > 2 { // This is likely a timestamp return false } return true } var nan = math.NaN() var inf = math.Inf(1)