package logstorage import ( "fmt" "slices" "strconv" "strings" "unsafe" "github.com/VictoriaMetrics/VictoriaMetrics/lib/bytesutil" ) type statsUniqValues struct { fields []string containsStar bool limit uint64 } func (su *statsUniqValues) String() string { s := "uniq_values(" + fieldNamesString(su.fields) + ")" if su.limit > 0 { s += fmt.Sprintf(" limit %d", su.limit) } return s } func (su *statsUniqValues) neededFields() []string { return su.fields } func (su *statsUniqValues) newStatsProcessor() (statsProcessor, int) { sup := &statsUniqValuesProcessor{ su: su, m: make(map[string]struct{}), } return sup, int(unsafe.Sizeof(*sup)) } type statsUniqValuesProcessor struct { su *statsUniqValues m map[string]struct{} } func (sup *statsUniqValuesProcessor) updateStatsForAllRows(br *blockResult) int { if sup.limitReached() { // Limit on the number of unique values has been reached return 0 } stateSizeIncrease := 0 if sup.su.containsStar { for _, c := range br.getColumns() { stateSizeIncrease += sup.updateStatsForAllRowsColumn(c, br) } } else { for _, field := range sup.su.fields { c := br.getColumnByName(field) stateSizeIncrease += sup.updateStatsForAllRowsColumn(c, br) } } return stateSizeIncrease } func (sup *statsUniqValuesProcessor) updateStatsForAllRowsColumn(c *blockResultColumn, br *blockResult) int { m := sup.m stateSizeIncrease := 0 if c.isConst { // collect unique const values v := c.encodedValues[0] if v == "" { // skip empty values return stateSizeIncrease } if _, ok := m[v]; !ok { vCopy := strings.Clone(v) m[vCopy] = struct{}{} stateSizeIncrease += len(vCopy) + int(unsafe.Sizeof(vCopy)) } return stateSizeIncrease } if c.valueType == valueTypeDict { // collect unique non-zero c.dictValues for _, v := range c.dictValues { if v == "" { // skip empty values continue } if _, ok := m[v]; !ok { vCopy := strings.Clone(v) m[vCopy] = struct{}{} stateSizeIncrease += len(vCopy) + int(unsafe.Sizeof(vCopy)) } } return stateSizeIncrease } // slow path - collect unique values across all rows values := c.getValues(br) for i, v := range values { if v == "" { // skip empty values continue } if i > 0 && values[i-1] == v { // This value has been already counted. continue } if _, ok := m[v]; !ok { vCopy := strings.Clone(v) m[vCopy] = struct{}{} stateSizeIncrease += len(vCopy) + int(unsafe.Sizeof(vCopy)) } } return stateSizeIncrease } func (sup *statsUniqValuesProcessor) updateStatsForRow(br *blockResult, rowIdx int) int { if sup.limitReached() { // Limit on the number of unique values has been reached return 0 } stateSizeIncrease := 0 if sup.su.containsStar { for _, c := range br.getColumns() { stateSizeIncrease += sup.updateStatsForRowColumn(c, br, rowIdx) } } else { for _, field := range sup.su.fields { c := br.getColumnByName(field) stateSizeIncrease += sup.updateStatsForRowColumn(c, br, rowIdx) } } return stateSizeIncrease } func (sup *statsUniqValuesProcessor) updateStatsForRowColumn(c *blockResultColumn, br *blockResult, rowIdx int) int { m := sup.m stateSizeIncrease := 0 if c.isConst { // collect unique const values v := c.encodedValues[0] if v == "" { // skip empty values return stateSizeIncrease } if _, ok := m[v]; !ok { vCopy := strings.Clone(v) m[vCopy] = struct{}{} stateSizeIncrease += len(vCopy) + int(unsafe.Sizeof(vCopy)) } return stateSizeIncrease } if c.valueType == valueTypeDict { // collect unique non-zero c.dictValues dictIdx := c.encodedValues[rowIdx][0] v := c.dictValues[dictIdx] if v == "" { // skip empty values return stateSizeIncrease } if _, ok := m[v]; !ok { vCopy := strings.Clone(v) m[vCopy] = struct{}{} stateSizeIncrease += len(vCopy) + int(unsafe.Sizeof(vCopy)) } return stateSizeIncrease } // collect unique values for the given rowIdx. v := c.getValueAtRow(br, rowIdx) if v == "" { // skip empty values return stateSizeIncrease } if _, ok := m[v]; !ok { vCopy := strings.Clone(v) m[vCopy] = struct{}{} stateSizeIncrease += len(vCopy) + int(unsafe.Sizeof(vCopy)) } return stateSizeIncrease } func (sup *statsUniqValuesProcessor) mergeState(sfp statsProcessor) { if sup.limitReached() { return } src := sfp.(*statsUniqValuesProcessor) m := sup.m for k := range src.m { if _, ok := m[k]; !ok { m[k] = struct{}{} } } } func (sup *statsUniqValuesProcessor) finalizeStats() string { if len(sup.m) == 0 { return "[]" } items := make([]string, 0, len(sup.m)) for k := range sup.m { items = append(items, k) } if limit := sup.su.limit; limit > 0 && uint64(len(items)) > limit { items = items[:limit] } return marshalJSONArray(items) } func (sup *statsUniqValuesProcessor) limitReached() bool { limit := sup.su.limit return limit > 0 && uint64(len(sup.m)) >= limit } func marshalJSONArray(items []string) string { // Pre-allocate buffer for serialized items. // Assume that there is no need in quoting items. Otherwise additional reallocations // for the allocated buffer are possible. bufSize := len(items) + 1 for _, item := range items { bufSize += len(item) } b := make([]byte, 0, bufSize) b = append(b, '[') b = strconv.AppendQuote(b, items[0]) for _, item := range items[1:] { b = append(b, ',') b = strconv.AppendQuote(b, item) } b = append(b, ']') return bytesutil.ToUnsafeString(b) } func parseStatsUniqValues(lex *lexer) (*statsUniqValues, error) { fields, err := parseFieldNamesForStatsFunc(lex, "uniq_values") if err != nil { return nil, err } su := &statsUniqValues{ fields: fields, containsStar: slices.Contains(fields, "*"), } if lex.isKeyword("limit") { lex.nextToken() n, ok := tryParseUint64(lex.token) if !ok { return nil, fmt.Errorf("cannot parse 'limit %s' for 'uniq_values': %w", lex.token, err) } lex.nextToken() su.limit = n } return su, nil }