mirror of
https://github.com/VictoriaMetrics/VictoriaMetrics.git
synced 2024-12-29 23:30:04 +01:00
379 lines
9.1 KiB
Go
379 lines
9.1 KiB
Go
package logstorage
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import (
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"fmt"
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"strconv"
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"unsafe"
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"github.com/VictoriaMetrics/VictoriaMetrics/lib/bytesutil"
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"github.com/VictoriaMetrics/VictoriaMetrics/lib/encoding"
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)
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type statsCountUniq struct {
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fields []string
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limit uint64
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}
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func (su *statsCountUniq) String() string {
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s := "count_uniq(" + statsFuncFieldsToString(su.fields) + ")"
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if su.limit > 0 {
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s += fmt.Sprintf(" limit %d", su.limit)
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}
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return s
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}
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func (su *statsCountUniq) updateNeededFields(neededFields fieldsSet) {
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updateNeededFieldsForStatsFunc(neededFields, su.fields)
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}
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func (su *statsCountUniq) newStatsProcessor() (statsProcessor, int) {
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sup := &statsCountUniqProcessor{
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su: su,
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m: make(map[string]struct{}),
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}
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return sup, int(unsafe.Sizeof(*sup))
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}
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type statsCountUniqProcessor struct {
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su *statsCountUniq
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m map[string]struct{}
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columnValues [][]string
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keyBuf []byte
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}
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func (sup *statsCountUniqProcessor) updateStatsForAllRows(br *blockResult) int {
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if sup.limitReached() {
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return 0
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}
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fields := sup.su.fields
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stateSizeIncrease := 0
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if len(fields) == 0 {
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// Count unique rows
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cs := br.getColumns()
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columnValues := sup.columnValues[:0]
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for _, c := range cs {
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values := c.getValues(br)
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columnValues = append(columnValues, values)
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}
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sup.columnValues = columnValues
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keyBuf := sup.keyBuf[:0]
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for i := range br.timestamps {
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seenKey := true
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for _, values := range columnValues {
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if i == 0 || values[i-1] != values[i] {
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seenKey = false
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break
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}
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}
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if seenKey {
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// This key has been already counted.
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continue
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}
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allEmptyValues := true
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keyBuf = keyBuf[:0]
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for j, values := range columnValues {
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v := values[i]
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if v != "" {
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allEmptyValues = false
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}
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// Put column name into key, since every block can contain different set of columns for '*' selector.
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keyBuf = encoding.MarshalBytes(keyBuf, bytesutil.ToUnsafeBytes(cs[j].name))
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keyBuf = encoding.MarshalBytes(keyBuf, bytesutil.ToUnsafeBytes(v))
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}
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if allEmptyValues {
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// Do not count empty values
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continue
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}
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stateSizeIncrease += sup.updateState(keyBuf)
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}
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sup.keyBuf = keyBuf
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return stateSizeIncrease
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}
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if len(fields) == 1 {
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// Fast path for a single column.
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// The unique key is formed as "<is_time> <value>",
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// This guarantees that keys do not clash for different column types across blocks.
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c := br.getColumnByName(fields[0])
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if c.isTime {
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// Count unique br.timestamps
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timestamps := br.timestamps
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keyBuf := sup.keyBuf[:0]
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for i, timestamp := range timestamps {
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if i > 0 && timestamps[i-1] == timestamps[i] {
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// This timestamp has been already counted.
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continue
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}
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keyBuf = append(keyBuf[:0], 1)
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keyBuf = encoding.MarshalInt64(keyBuf, timestamp)
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stateSizeIncrease += sup.updateState(keyBuf)
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}
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sup.keyBuf = keyBuf
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return stateSizeIncrease
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}
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if c.isConst {
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// count unique const values
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v := c.valuesEncoded[0]
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if v == "" {
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// Do not count empty values
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return stateSizeIncrease
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}
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keyBuf := sup.keyBuf[:0]
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keyBuf = append(keyBuf[:0], 0)
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keyBuf = append(keyBuf, v...)
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stateSizeIncrease += sup.updateState(keyBuf)
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sup.keyBuf = keyBuf
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return stateSizeIncrease
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}
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if c.valueType == valueTypeDict {
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// count unique non-zero c.dictValues
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keyBuf := sup.keyBuf[:0]
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for _, v := range c.dictValues {
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if v == "" {
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// Do not count empty values
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continue
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}
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keyBuf = append(keyBuf[:0], 0)
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keyBuf = append(keyBuf, v...)
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stateSizeIncrease += sup.updateState(keyBuf)
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}
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sup.keyBuf = keyBuf
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return stateSizeIncrease
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}
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// Count unique values across values
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values := c.getValues(br)
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keyBuf := sup.keyBuf[:0]
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for i, v := range values {
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if v == "" {
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// Do not count empty values
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continue
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}
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if i > 0 && values[i-1] == v {
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// This value has been already counted.
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continue
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}
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keyBuf = append(keyBuf[:0], 0)
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keyBuf = append(keyBuf, v...)
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stateSizeIncrease += sup.updateState(keyBuf)
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}
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sup.keyBuf = keyBuf
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return stateSizeIncrease
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}
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// Slow path for multiple columns.
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// Pre-calculate column values for byFields in order to speed up building group key in the loop below.
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columnValues := sup.columnValues[:0]
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for _, f := range fields {
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c := br.getColumnByName(f)
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values := c.getValues(br)
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columnValues = append(columnValues, values)
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}
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sup.columnValues = columnValues
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keyBuf := sup.keyBuf[:0]
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for i := range br.timestamps {
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seenKey := true
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for _, values := range columnValues {
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if i == 0 || values[i-1] != values[i] {
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seenKey = false
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break
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}
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}
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if seenKey {
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continue
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}
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allEmptyValues := true
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keyBuf = keyBuf[:0]
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for _, values := range columnValues {
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v := values[i]
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if v != "" {
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allEmptyValues = false
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}
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keyBuf = encoding.MarshalBytes(keyBuf, bytesutil.ToUnsafeBytes(v))
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}
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if allEmptyValues {
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// Do not count empty values
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continue
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}
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stateSizeIncrease += sup.updateState(keyBuf)
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}
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sup.keyBuf = keyBuf
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return stateSizeIncrease
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}
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func (sup *statsCountUniqProcessor) updateStatsForRow(br *blockResult, rowIdx int) int {
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if sup.limitReached() {
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return 0
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}
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fields := sup.su.fields
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stateSizeIncrease := 0
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if len(fields) == 0 {
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// Count unique rows
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allEmptyValues := true
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keyBuf := sup.keyBuf[:0]
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for _, c := range br.getColumns() {
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v := c.getValueAtRow(br, rowIdx)
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if v != "" {
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allEmptyValues = false
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}
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// Put column name into key, since every block can contain different set of columns for '*' selector.
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keyBuf = encoding.MarshalBytes(keyBuf, bytesutil.ToUnsafeBytes(c.name))
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keyBuf = encoding.MarshalBytes(keyBuf, bytesutil.ToUnsafeBytes(v))
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}
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sup.keyBuf = keyBuf
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if allEmptyValues {
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// Do not count empty values
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return stateSizeIncrease
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}
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stateSizeIncrease += sup.updateState(keyBuf)
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return stateSizeIncrease
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}
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if len(fields) == 1 {
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// Fast path for a single column.
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// The unique key is formed as "<is_time> <value>",
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// This guarantees that keys do not clash for different column types across blocks.
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c := br.getColumnByName(fields[0])
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if c.isTime {
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// Count unique br.timestamps
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keyBuf := sup.keyBuf[:0]
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keyBuf = append(keyBuf[:0], 1)
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keyBuf = encoding.MarshalInt64(keyBuf, br.timestamps[rowIdx])
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stateSizeIncrease += sup.updateState(keyBuf)
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sup.keyBuf = keyBuf
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return stateSizeIncrease
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}
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if c.isConst {
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// count unique const values
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v := c.valuesEncoded[0]
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if v == "" {
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// Do not count empty values
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return stateSizeIncrease
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}
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keyBuf := sup.keyBuf[:0]
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keyBuf = append(keyBuf[:0], 0)
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keyBuf = append(keyBuf, v...)
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stateSizeIncrease += sup.updateState(keyBuf)
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sup.keyBuf = keyBuf
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return stateSizeIncrease
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}
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if c.valueType == valueTypeDict {
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// count unique non-zero c.dictValues
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valuesEncoded := c.getValuesEncoded(br)
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dictIdx := valuesEncoded[rowIdx][0]
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v := c.dictValues[dictIdx]
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if v == "" {
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// Do not count empty values
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return stateSizeIncrease
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}
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keyBuf := sup.keyBuf[:0]
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keyBuf = append(keyBuf[:0], 0)
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keyBuf = append(keyBuf, v...)
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stateSizeIncrease += sup.updateState(keyBuf)
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sup.keyBuf = keyBuf
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return stateSizeIncrease
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}
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// Count unique values for the given rowIdx
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v := c.getValueAtRow(br, rowIdx)
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if v == "" {
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// Do not count empty values
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return stateSizeIncrease
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}
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keyBuf := sup.keyBuf[:0]
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keyBuf = append(keyBuf[:0], 0)
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keyBuf = append(keyBuf, v...)
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stateSizeIncrease += sup.updateState(keyBuf)
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sup.keyBuf = keyBuf
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return stateSizeIncrease
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}
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// Slow path for multiple columns.
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allEmptyValues := true
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keyBuf := sup.keyBuf[:0]
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for _, f := range fields {
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c := br.getColumnByName(f)
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v := c.getValueAtRow(br, rowIdx)
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if v != "" {
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allEmptyValues = false
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}
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keyBuf = encoding.MarshalBytes(keyBuf, bytesutil.ToUnsafeBytes(v))
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}
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sup.keyBuf = keyBuf
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if allEmptyValues {
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// Do not count empty values
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return stateSizeIncrease
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}
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stateSizeIncrease += sup.updateState(keyBuf)
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return stateSizeIncrease
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}
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func (sup *statsCountUniqProcessor) mergeState(sfp statsProcessor) {
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if sup.limitReached() {
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return
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}
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src := sfp.(*statsCountUniqProcessor)
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m := sup.m
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for k := range src.m {
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if _, ok := m[k]; !ok {
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m[k] = struct{}{}
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}
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}
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}
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func (sup *statsCountUniqProcessor) finalizeStats() string {
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n := uint64(len(sup.m))
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if limit := sup.su.limit; limit > 0 && n > limit {
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n = limit
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}
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return strconv.FormatUint(n, 10)
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}
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func (sup *statsCountUniqProcessor) updateState(v []byte) int {
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stateSizeIncrease := 0
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if _, ok := sup.m[string(v)]; !ok {
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sup.m[string(v)] = struct{}{}
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stateSizeIncrease += len(v) + int(unsafe.Sizeof(""))
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}
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return stateSizeIncrease
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}
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func (sup *statsCountUniqProcessor) limitReached() bool {
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limit := sup.su.limit
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return limit > 0 && uint64(len(sup.m)) >= limit
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}
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func parseStatsCountUniq(lex *lexer) (*statsCountUniq, error) {
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fields, err := parseStatsFuncFields(lex, "count_uniq")
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if err != nil {
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return nil, err
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}
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su := &statsCountUniq{
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fields: fields,
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}
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if lex.isKeyword("limit") {
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lex.nextToken()
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n, ok := tryParseUint64(lex.token)
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if !ok {
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return nil, fmt.Errorf("cannot parse 'limit %s' for 'count_uniq': %w", lex.token, err)
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}
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lex.nextToken()
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su.limit = n
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}
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return su, nil
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}
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