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add zlexcount, zremrangebylex, zrankbylex, zrevrankbylex to zset

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This commit is contained in:
damonslh
2023-05-28 21:37:15 +08:00
committed by finley
parent 74421ba3f2
commit 96a37cc7cb
9 changed files with 811 additions and 70 deletions
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7
aof/marshal.go
View File

@@ -1,14 +1,15 @@
package aof
import (
"strconv"
"time"
"github.com/hdt3213/godis/datastruct/dict"
List "github.com/hdt3213/godis/datastruct/list"
"github.com/hdt3213/godis/datastruct/set"
SortedSet "github.com/hdt3213/godis/datastruct/sortedset"
"github.com/hdt3213/godis/interface/database"
"github.com/hdt3213/godis/redis/protocol"
"strconv"
"time"
)
// EntityToCmd serialize data entity to redis command
@@ -95,7 +96,7 @@ func zSetToCmd(key string, zset *SortedSet.SortedSet) *protocol.MultiBulkReply {
args[0] = zAddCmd
args[1] = []byte(key)
i := 0
zset.ForEach(int64(0), int64(zset.Len()), true, func(element *SortedSet.Element) bool {
zset.ForEachByRank(int64(0), int64(zset.Len()), true, func(element *SortedSet.Element) bool {
value := strconv.FormatFloat(element.Score, 'f', -1, 64)
args[2+i*2] = []byte(value)
args[3+i*2] = []byte(element.Member)

2
aof/rdb.go
View File

@@ -168,7 +168,7 @@ func (persister *Persister) generateRDB(ctx *RewriteCtx) error {
err = encoder.WriteHashMapObject(key, hash, opts...)
case *SortedSet.SortedSet:
var entries []*model.ZSetEntry
obj.ForEach(int64(0), obj.Len(), true, func(element *SortedSet.Element) bool {
obj.ForEachByRank(int64(0), obj.Len(), true, func(element *SortedSet.Element) bool {
entries = append(entries, &model.ZSetEntry{
Member: element.Member,
Score: element.Score,

4
commands.md
View File

@@ -97,6 +97,10 @@
- zrem
- zremrangebyscore
- zremrangebyrank
- zlexcount
- zrangebylex
- zremrangebylex
- zrevrangebylex
- Pub / Sub
- publish
- subscribe

7
database/geo.go
View File

@@ -2,13 +2,14 @@ package database
import (
"fmt"
"strconv"
"strings"
"github.com/hdt3213/godis/datastruct/sortedset"
"github.com/hdt3213/godis/interface/redis"
"github.com/hdt3213/godis/lib/geohash"
"github.com/hdt3213/godis/lib/utils"
"github.com/hdt3213/godis/redis/protocol"
"strconv"
"strings"
)
// execGeoAdd add a location into SortedSet
@@ -253,7 +254,7 @@ func geoRadius0(sortedSet *sortedset.SortedSet, lat float64, lng float64, radius
for _, area := range areas {
lower := &sortedset.ScoreBorder{Value: float64(area[0])}
upper := &sortedset.ScoreBorder{Value: float64(area[1])}
elements := sortedSet.RangeByScore(lower, upper, 0, -1, true)
elements := sortedSet.Range(lower, upper, 0, -1, true)
for _, elem := range elements {
members = append(members, []byte(elem.Member))
}

197
database/sortedset.go
View File

@@ -1,13 +1,15 @@
package database
import (
"math"
"strconv"
"strings"
SortedSet "github.com/hdt3213/godis/datastruct/sortedset"
"github.com/hdt3213/godis/interface/database"
"github.com/hdt3213/godis/interface/redis"
"github.com/hdt3213/godis/lib/utils"
"github.com/hdt3213/godis/redis/protocol"
"strconv"
"strings"
)
func (db *DB) getAsSortedSet(key string) (*SortedSet.SortedSet, protocol.ErrorReply) {
@@ -253,7 +255,7 @@ func range0(db *DB, key string, start int64, stop int64, withScores bool, desc b
}
// assert: start in [0, size - 1], stop in [start, size]
slice := sortedSet.Range(start, stop, desc)
slice := sortedSet.RangeByRank(start, stop, desc)
if withScores {
result := make([][]byte, len(slice)*2)
i := 0
@@ -298,13 +300,13 @@ func execZCount(db *DB, args [][]byte) redis.Reply {
return protocol.MakeIntReply(0)
}
return protocol.MakeIntReply(sortedSet.Count(min, max))
return protocol.MakeIntReply(sortedSet.RangeCount(min, max))
}
/*
* param limit: limit < 0 means no limit
*/
func rangeByScore0(db *DB, key string, min *SortedSet.ScoreBorder, max *SortedSet.ScoreBorder, offset int64, limit int64, withScores bool, desc bool) redis.Reply {
func rangeByScore0(db *DB, key string, min SortedSet.Border, max SortedSet.Border, offset int64, limit int64, withScores bool, desc bool) redis.Reply {
// get data
sortedSet, errReply := db.getAsSortedSet(key)
if errReply != nil {
@@ -314,7 +316,7 @@ func rangeByScore0(db *DB, key string, min *SortedSet.ScoreBorder, max *SortedSe
return &protocol.EmptyMultiBulkReply{}
}
slice := sortedSet.RangeByScore(min, max, offset, limit, desc)
slice := sortedSet.Range(min, max, offset, limit, desc)
if withScores {
result := make([][]byte, len(slice)*2)
i := 0
@@ -456,7 +458,7 @@ func execZRemRangeByScore(db *DB, args [][]byte) redis.Reply {
return &protocol.EmptyMultiBulkReply{}
}
removed := sortedSet.RemoveByScore(min, max)
removed := sortedSet.RemoveRange(min, max)
if removed > 0 {
db.addAof(utils.ToCmdLine3("zremrangebyscore", args...))
}
@@ -621,6 +623,179 @@ func undoZIncr(db *DB, args [][]byte) []CmdLine {
return rollbackZSetFields(db, key, field)
}
func execZLexCount(db *DB, args [][]byte) redis.Reply {
key := string(args[0])
sortedSet, errReply := db.getAsSortedSet(key)
if errReply != nil {
return errReply
}
if sortedSet == nil {
return protocol.MakeIntReply(0)
}
minEle, maxEle := string(args[1]), string(args[2])
min, err := SortedSet.ParseLexBorder(minEle)
if err != nil {
return protocol.MakeErrReply(err.Error())
}
max, err := SortedSet.ParseLexBorder(maxEle)
if err != nil {
return protocol.MakeErrReply(err.Error())
}
count := sortedSet.RangeCount(min, max)
return protocol.MakeIntReply(count)
}
func execZRangeByLex(db *DB, args [][]byte) redis.Reply {
n := len(args)
if n > 3 && strings.ToLower(string(args[3])) != "limit" {
return protocol.MakeErrReply("ERR syntax error")
}
if n != 3 && n != 6 {
return protocol.MakeErrReply("ERR wrong number of arguments for 'zrangebylex' command")
}
key := string(args[0])
sortedSet, errReply := db.getAsSortedSet(key)
if errReply != nil {
return errReply
}
if sortedSet == nil {
return protocol.MakeIntReply(0)
}
minEle, maxEle := string(args[1]), string(args[2])
min, err := SortedSet.ParseLexBorder(minEle)
if err != nil {
return protocol.MakeErrReply(err.Error())
}
max, err := SortedSet.ParseLexBorder(maxEle)
if err != nil {
return protocol.MakeErrReply(err.Error())
}
offset := int64(0)
limitCnt := int64(math.MaxInt64)
if n > 3 {
var err error
offset, err = strconv.ParseInt(string(args[4]), 10, 64)
if err != nil {
return protocol.MakeErrReply("ERR value is not an integer or out of range")
}
if offset < 0 {
return protocol.MakeEmptyMultiBulkReply()
}
count, err := strconv.ParseInt(string(args[5]), 10, 64)
if err != nil {
return protocol.MakeErrReply("ERR value is not an integer or out of range")
}
if count >= 0 {
limitCnt = count
}
}
elements := sortedSet.Range(min, max, offset, limitCnt, false)
result := make([][]byte, 0, len(elements))
for _, ele := range elements {
result = append(result, []byte(ele.Member))
}
if len(result) == 0 {
return protocol.MakeEmptyMultiBulkReply()
}
return protocol.MakeMultiBulkReply(result)
}
func execZRemRangeByLex(db *DB, args [][]byte) redis.Reply {
n := len(args)
if n != 3 {
return protocol.MakeErrReply("ERR wrong number of arguments for 'zremrangebylex' command")
}
key := string(args[0])
sortedSet, errReply := db.getAsSortedSet(key)
if errReply != nil {
return errReply
}
if sortedSet == nil {
return protocol.MakeIntReply(0)
}
minEle, maxEle := string(args[1]), string(args[2])
min, err := SortedSet.ParseLexBorder(minEle)
if err != nil {
return protocol.MakeErrReply(err.Error())
}
max, err := SortedSet.ParseLexBorder(maxEle)
if err != nil {
return protocol.MakeErrReply(err.Error())
}
count := sortedSet.RemoveRange(min, max)
return protocol.MakeIntReply(count)
}
func execZRevRangeByLex(db *DB, args [][]byte) redis.Reply {
n := len(args)
if n > 3 && strings.ToLower(string(args[3])) != "limit" {
return protocol.MakeErrReply("ERR syntax error")
}
if n != 3 && n != 6 {
return protocol.MakeErrReply("ERR wrong number of arguments for 'zrangebylex' command")
}
key := string(args[0])
sortedSet, errReply := db.getAsSortedSet(key)
if errReply != nil {
return errReply
}
if sortedSet == nil {
return protocol.MakeIntReply(0)
}
minEle, maxEle := string(args[2]), string(args[1])
min, err := SortedSet.ParseLexBorder(minEle)
if err != nil {
return protocol.MakeErrReply(err.Error())
}
max, err := SortedSet.ParseLexBorder(maxEle)
if err != nil {
return protocol.MakeErrReply(err.Error())
}
offset := int64(0)
limitCnt := int64(math.MaxInt64)
if n > 3 {
var err error
offset, err = strconv.ParseInt(string(args[4]), 10, 64)
if err != nil {
return protocol.MakeErrReply("ERR value is not an integer or out of range")
}
if offset < 0 {
return protocol.MakeEmptyMultiBulkReply()
}
count, err := strconv.ParseInt(string(args[5]), 10, 64)
if err != nil {
return protocol.MakeErrReply("ERR value is not an integer or out of range")
}
if count >= 0 {
limitCnt = count
}
}
elements := sortedSet.Range(min, max, offset, limitCnt, true)
result := make([][]byte, 0, len(elements))
for _, ele := range elements {
result = append(result, []byte(ele.Member))
}
if len(result) == 0 {
return protocol.MakeEmptyMultiBulkReply()
}
return protocol.MakeMultiBulkReply(result)
}
func init() {
registerCommand("ZAdd", execZAdd, writeFirstKey, undoZAdd, -4, flagWrite).
attachCommandExtra([]string{redisFlagWrite, redisFlagDenyOOM, redisFlagFast}, 1, 1, 1)
@@ -652,4 +827,12 @@ func init() {
attachCommandExtra([]string{redisFlagWrite}, 1, 1, 1)
registerCommand("ZRemRangeByRank", execZRemRangeByRank, writeFirstKey, rollbackFirstKey, 4, flagWrite).
attachCommandExtra([]string{redisFlagWrite}, 1, 1, 1)
registerCommand("ZLexCount", execZLexCount, readFirstKey, nil, 4, flagReadOnly).
attachCommandExtra([]string{redisFlagReadonly}, 1, 1, 1)
registerCommand("ZRangeByLex", execZRangeByLex, readFirstKey, nil, -4, flagReadOnly).
attachCommandExtra([]string{redisFlagReadonly}, 1, 1, 1)
registerCommand("ZRemRangeByLex", execZRemRangeByLex, writeFirstKey, rollbackFirstKey, 4, flagWrite).
attachCommandExtra([]string{redisFlagWrite}, 1, 1, 1)
registerCommand("ZRevRangeByLex", execZRevRangeByLex, readFirstKey, nil, -4, flagReadOnly).
attachCommandExtra([]string{redisFlagReadonly}, 1, 1, 1)
}

446
database/sortedset_test.go
View File

@@ -1,11 +1,12 @@
package database
import (
"github.com/hdt3213/godis/lib/utils"
"github.com/hdt3213/godis/redis/protocol/asserts"
"math/rand"
"strconv"
"testing"
"github.com/hdt3213/godis/lib/utils"
"github.com/hdt3213/godis/redis/protocol/asserts"
)
func TestZAdd(t *testing.T) {
@@ -321,3 +322,444 @@ func TestZPopMin(t *testing.T) {
result = testDB.Exec(nil, utils.ToCmdLine("ZPopMin", key+"2", "2"))
asserts.AssertErrReply(t, result, "WRONGTYPE Operation against a key holding the wrong kind of value")
}
func TestZLexCount(t *testing.T) {
testDB.Flush()
key := utils.RandString(10)
// a b c d e
result := testDB.Exec(nil, utils.ToCmdLine("ZAdd", key, "0", "e", "0", "d", "0", "c", "0", "b", "0", "a"))
asserts.AssertNotError(t, result)
// case1
result1 := testDB.Exec(nil, utils.ToCmdLine("ZLexCount", key, "(-", "(+"))
asserts.AssertIntReply(t, result1, 0)
// case2
result2 := testDB.Exec(nil, utils.ToCmdLine("ZLexCount", key, "(-", "(g"))
asserts.AssertIntReply(t, result2, 5)
// case3
result3 := testDB.Exec(nil, utils.ToCmdLine("ZLexCount", key, "(-", "(c"))
asserts.AssertIntReply(t, result3, 2)
// case4
result4 := testDB.Exec(nil, utils.ToCmdLine("ZLexCount", key, "(-", "[c"))
asserts.AssertIntReply(t, result4, 3)
// case5
result5 := testDB.Exec(nil, utils.ToCmdLine("ZLexCount", key, "(a", "(+"))
asserts.AssertIntReply(t, result5, 0)
// case6
result6 := testDB.Exec(nil, utils.ToCmdLine("ZLexCount", key, "[-", "[+"))
asserts.AssertIntReply(t, result6, 0)
// case
result7 := testDB.Exec(nil, utils.ToCmdLine("ZLexCount", key, "[-", "(g"))
asserts.AssertIntReply(t, result7, 5)
// case8
result8 := testDB.Exec(nil, utils.ToCmdLine("ZLexCount", key, "[-", "(c"))
asserts.AssertIntReply(t, result8, 2)
// case9
result9 := testDB.Exec(nil, utils.ToCmdLine("ZLexCount", key, "[-", "[c"))
asserts.AssertIntReply(t, result9, 3)
// case10
result10 := testDB.Exec(nil, utils.ToCmdLine("ZLexCount", key, "(a", "[+"))
asserts.AssertIntReply(t, result10, 0)
// case11
result11 := testDB.Exec(nil, utils.ToCmdLine("ZLexCount", key, "-", "+"))
asserts.AssertIntReply(t, result11, 5)
// case12
result12 := testDB.Exec(nil, utils.ToCmdLine("ZLexCount", key, "-", "(c"))
asserts.AssertIntReply(t, result12, 2)
// case13
result13 := testDB.Exec(nil, utils.ToCmdLine("ZLexCount", key, "-", "[c"))
asserts.AssertIntReply(t, result13, 3)
// case14
result14 := testDB.Exec(nil, utils.ToCmdLine("ZLexCount", key, "(aa", "(c"))
asserts.AssertIntReply(t, result14, 1)
// case15
result15 := testDB.Exec(nil, utils.ToCmdLine("ZLexCount", key, "(aa", "[c"))
asserts.AssertIntReply(t, result15, 2)
// case16
result16 := testDB.Exec(nil, utils.ToCmdLine("ZLexCount", key, "[aa", "(c"))
asserts.AssertIntReply(t, result16, 1)
// case17
result17 := testDB.Exec(nil, utils.ToCmdLine("ZLexCount", key, "[aa", "[c"))
asserts.AssertIntReply(t, result17, 2)
// case18
result18 := testDB.Exec(nil, utils.ToCmdLine("ZLexCount", key, "(a", "(ee"))
asserts.AssertIntReply(t, result18, 4)
// case19
result19 := testDB.Exec(nil, utils.ToCmdLine("ZLexCount", key, "(a", "[ee"))
asserts.AssertIntReply(t, result19, 4)
// case20
result20 := testDB.Exec(nil, utils.ToCmdLine("ZLexCount", key, "[a", "(ee"))
asserts.AssertIntReply(t, result20, 5)
// case21
result21 := testDB.Exec(nil, utils.ToCmdLine("ZLexCount", key, "[a", "[ee"))
asserts.AssertIntReply(t, result21, 5)
// case22
result22 := testDB.Exec(nil, utils.ToCmdLine("ZLexCount", key, "(aa", "(ee"))
asserts.AssertIntReply(t, result22, 4)
// case23
result23 := testDB.Exec(nil, utils.ToCmdLine("ZLexCount", key, "(aa", "[ee"))
asserts.AssertIntReply(t, result23, 4)
// case24
result24 := testDB.Exec(nil, utils.ToCmdLine("ZLexCount", key, "[aa", "(ee"))
asserts.AssertIntReply(t, result24, 4)
// case25
result25 := testDB.Exec(nil, utils.ToCmdLine("ZLexCount", key, "[aa", "[ee"))
asserts.AssertIntReply(t, result25, 4)
}
func TestZRangeByLex(t *testing.T) {
testDB.Flush()
key := utils.RandString(10)
// a b c d e
result := testDB.Exec(nil, utils.ToCmdLine("ZAdd", key, "0", "e", "0", "d", "0", "c", "0", "b", "0", "a"))
asserts.AssertNotError(t, result)
// case1
result1 := testDB.Exec(nil, utils.ToCmdLine("ZRangeByLex", key, "-", "+"))
asserts.AssertMultiBulkReply(t, result1, []string{"a", "b", "c", "d", "e"})
// case2
result2 := testDB.Exec(nil, utils.ToCmdLine("ZRangeByLex", key, "-", "(z"))
asserts.AssertMultiBulkReply(t, result2, []string{"a", "b", "c", "d", "e"})
// case3
result3 := testDB.Exec(nil, utils.ToCmdLine("ZRangeByLex", key, "(-", "[z"))
asserts.AssertMultiBulkReply(t, result3, []string{"a", "b", "c", "d", "e"})
// case4
result4 := testDB.Exec(nil, utils.ToCmdLine("ZRangeByLex", key, "[a", "[e"))
asserts.AssertMultiBulkReply(t, result4, []string{"a", "b", "c", "d", "e"})
// case5
result5 := testDB.Exec(nil, utils.ToCmdLine("ZRangeByLex", key, "(a", "[e"))
asserts.AssertMultiBulkReply(t, result5, []string{"b", "c", "d", "e"})
// case6
result6 := testDB.Exec(nil, utils.ToCmdLine("ZRangeByLex", key, "[a", "(e"))
asserts.AssertMultiBulkReply(t, result6, []string{"a", "b", "c", "d"})
// case7
result7 := testDB.Exec(nil, utils.ToCmdLine("ZRangeByLex", key, "(a", "(e"))
asserts.AssertMultiBulkReply(t, result7, []string{"b", "c", "d"})
// case8
result8 := testDB.Exec(nil, utils.ToCmdLine("ZRangeByLex", key, "(aa", "(ee"))
asserts.AssertMultiBulkReply(t, result8, []string{"b", "c", "d", "e"})
// case9
result9 := testDB.Exec(nil, utils.ToCmdLine("ZRangeByLex", key, "(aa", "[ee"))
asserts.AssertMultiBulkReply(t, result9, []string{"b", "c", "d", "e"})
// case10
result10 := testDB.Exec(nil, utils.ToCmdLine("ZRangeByLex", key, "[aa", "(ee"))
asserts.AssertMultiBulkReply(t, result10, []string{"b", "c", "d", "e"})
// case11
result11 := testDB.Exec(nil, utils.ToCmdLine("ZRangeByLex", key, "[aa", "[ee"))
asserts.AssertMultiBulkReply(t, result11, []string{"b", "c", "d", "e"})
// case12
result12 := testDB.Exec(nil, utils.ToCmdLine("ZRangeByLex", key, "(aa", "(e"))
asserts.AssertMultiBulkReply(t, result12, []string{"b", "c", "d"})
// case13
result13 := testDB.Exec(nil, utils.ToCmdLine("ZRangeByLex", key, "(aa", "[e"))
asserts.AssertMultiBulkReply(t, result13, []string{"b", "c", "d", "e"})
// case14
result14 := testDB.Exec(nil, utils.ToCmdLine("ZRangeByLex", key, "[aa", "(e"))
asserts.AssertMultiBulkReply(t, result14, []string{"b", "c", "d"})
// case15
result15 := testDB.Exec(nil, utils.ToCmdLine("ZRangeByLex", key, "[aa", "[e"))
asserts.AssertMultiBulkReply(t, result15, []string{"b", "c", "d", "e"})
// case16
result16 := testDB.Exec(nil, utils.ToCmdLine("ZRangeByLex", key, "(a", "(ee"))
asserts.AssertMultiBulkReply(t, result16, []string{"b", "c", "d", "e"})
// case17
result17 := testDB.Exec(nil, utils.ToCmdLine("ZRangeByLex", key, "(a", "[ee"))
asserts.AssertMultiBulkReply(t, result17, []string{"b", "c", "d", "e"})
// case18
result18 := testDB.Exec(nil, utils.ToCmdLine("ZRangeByLex", key, "[a", "(ee"))
asserts.AssertMultiBulkReply(t, result18, []string{"a", "b", "c", "d", "e"})
// case19
result19 := testDB.Exec(nil, utils.ToCmdLine("ZRangeByLex", key, "[a", "[ee"))
asserts.AssertMultiBulkReply(t, result19, []string{"a", "b", "c", "d", "e"})
// case20
result20 := testDB.Exec(nil, utils.ToCmdLine("ZRangeByLex", key, "(-", "(+"))
asserts.AssertMultiBulkReplySize(t, result20, 0)
// case21
result21 := testDB.Exec(nil, utils.ToCmdLine("ZRangeByLex", key, "(a", "(+"))
asserts.AssertMultiBulkReplySize(t, result21, 0)
// case22
result22 := testDB.Exec(nil, utils.ToCmdLine("ZRangeByLex", key, "[-", "[+"))
asserts.AssertMultiBulkReplySize(t, result22, 0)
// case23
result23 := testDB.Exec(nil, utils.ToCmdLine("ZRangeByLex", key, "(z", "(g"))
asserts.AssertMultiBulkReplySize(t, result23, 0)
// case24
result24 := testDB.Exec(nil, utils.ToCmdLine("ZRangeByLex", key, "[-", "(g"))
asserts.AssertMultiBulkReply(t, result24, []string{"a", "b", "c", "d", "e"})
// case25
result25 := testDB.Exec(nil, utils.ToCmdLine("ZRangeByLex", key, "[-", "(c"))
asserts.AssertMultiBulkReply(t, result25, []string{"a", "b"})
// case26
result26 := testDB.Exec(nil, utils.ToCmdLine("ZRangeByLex", key, "[-", "[c"))
asserts.AssertMultiBulkReply(t, result26, []string{"a", "b", "c"})
// case27
result27 := testDB.Exec(nil, utils.ToCmdLine("ZRangeByLex", key, "(a", "(e", "limit", "0", "-1"))
asserts.AssertMultiBulkReply(t, result27, []string{"b", "c", "d"})
// case28
result28 := testDB.Exec(nil, utils.ToCmdLine("ZRangeByLex", key, "(a", "(e", "limit", "0", "1"))
asserts.AssertMultiBulkReply(t, result28, []string{"b"})
// case28
result29 := testDB.Exec(nil, utils.ToCmdLine("ZRangeByLex", key, "(a", "(e", "limit", "-1", "1"))
asserts.AssertMultiBulkReplySize(t, result29, 0)
// case30
result30 := testDB.Exec(nil, utils.ToCmdLine("ZRangeByLex", key, "[a", "[e", "limit", "2", "100"))
asserts.AssertMultiBulkReply(t, result30, []string{"c", "d", "e"})
// case30
result31 := testDB.Exec(nil, utils.ToCmdLine("ZRangeByLex", key, "-", "+", "limit", "2", "2"))
asserts.AssertMultiBulkReply(t, result31, []string{"c", "d"})
}
func TestZRemRangeByLex(t *testing.T) {
testDB.Flush()
key := utils.RandString(10)
// a b c d e
asserts.AssertNotError(t, testDB.Exec(nil, utils.ToCmdLine("ZAdd", key, "0", "e", "0", "d", "0", "c", "0", "b", "0", "a")))
// case1
asserts.AssertIntReply(t,
testDB.Exec(nil, utils.ToCmdLine("ZRemRangeByLex", key, "-", "+")),
5)
asserts.AssertMultiBulkReplySize(t,
testDB.Exec(nil, utils.ToCmdLine("ZRangeByLex", key, "-", "+")),
0)
// case2
testDB.Exec(nil, utils.ToCmdLine("ZAdd", key, "0", "e", "0", "d", "0", "c", "0", "b", "0", "a"))
asserts.AssertIntReply(t,
testDB.Exec(nil, utils.ToCmdLine("ZRemRangeByLex", key, "-", "[c")),
3)
asserts.AssertMultiBulkReply(t,
testDB.Exec(nil, utils.ToCmdLine("ZRangeByLex", key, "-", "+")),
[]string{"d", "e"})
// case3
testDB.Exec(nil, utils.ToCmdLine("ZAdd", key, "0", "a", "0", "b", "0", "c"))
asserts.AssertMultiBulkReply(t,
testDB.Exec(nil, utils.ToCmdLine("ZRangeByLex", key, "-", "+")),
[]string{"a", "b", "c", "d", "e"})
asserts.AssertIntReply(t,
testDB.Exec(nil, utils.ToCmdLine("ZRemRangeByLex", key, "(c", "+")),
2)
asserts.AssertMultiBulkReply(t,
testDB.Exec(nil, utils.ToCmdLine("ZRangeByLex", key, "-", "+")),
[]string{"a", "b", "c"})
// case4
testDB.Exec(nil, utils.ToCmdLine("ZAdd", key, "0", "d", "0", "e"))
asserts.AssertMultiBulkReply(t,
testDB.Exec(nil, utils.ToCmdLine("ZRangeByLex", key, "-", "+")),
[]string{"a", "b", "c", "d", "e"})
asserts.AssertIntReply(t,
testDB.Exec(nil, utils.ToCmdLine("ZRemRangeByLex", key, "(a", "(d")),
2)
asserts.AssertMultiBulkReply(t,
testDB.Exec(nil, utils.ToCmdLine("ZRangeByLex", key, "-", "+")),
[]string{"a", "d", "e"})
// case5
testDB.Exec(nil, utils.ToCmdLine("ZAdd", key, "0", "b", "0", "c"))
asserts.AssertMultiBulkReply(t,
testDB.Exec(nil, utils.ToCmdLine("ZRangeByLex", key, "-", "+")),
[]string{"a", "b", "c", "d", "e"})
asserts.AssertIntReply(t,
testDB.Exec(nil, utils.ToCmdLine("ZRemRangeByLex", key, "[a", "[d")),
4)
asserts.AssertMultiBulkReply(t,
testDB.Exec(nil, utils.ToCmdLine("ZRangeByLex", key, "-", "+")),
[]string{"e"})
}
func TestZRevRangeByLex(t *testing.T) {
testDB.Flush()
key := utils.RandString(10)
// a b c d e
result := testDB.Exec(nil, utils.ToCmdLine("ZAdd", key, "0", "e", "0", "d", "0", "c", "0", "b", "0", "a"))
asserts.AssertNotError(t, result)
// case1
result1 := testDB.Exec(nil, utils.ToCmdLine("ZRevRangeByLex", key, "+", "-"))
asserts.AssertMultiBulkReply(t, result1, []string{"e", "d", "c", "b", "a"})
// case2
result2 := testDB.Exec(nil, utils.ToCmdLine("ZRevRangeByLex", key, "(z", "-"))
asserts.AssertMultiBulkReply(t, result2, []string{"e", "d", "c", "b", "a"})
// case3
result3 := testDB.Exec(nil, utils.ToCmdLine("ZRevRangeByLex", key, "[z", "-"))
asserts.AssertMultiBulkReply(t, result3, []string{"e", "d", "c", "b", "a"})
// case4
result4 := testDB.Exec(nil, utils.ToCmdLine("ZRevRangeByLex", key, "[e", "[a"))
asserts.AssertMultiBulkReply(t, result4, []string{"e", "d", "c", "b", "a"})
// case5
result5 := testDB.Exec(nil, utils.ToCmdLine("ZRevRangeByLex", key, "[e", "(a"))
asserts.AssertMultiBulkReply(t, result5, []string{"e", "d", "c", "b"})
// case6
result6 := testDB.Exec(nil, utils.ToCmdLine("ZRevRangeByLex", key, "(e", "[a"))
asserts.AssertMultiBulkReply(t, result6, []string{"d", "c", "b", "a"})
// case7
result7 := testDB.Exec(nil, utils.ToCmdLine("ZRevRangeByLex", key, "(e", "(a"))
asserts.AssertMultiBulkReply(t, result7, []string{"d", "c", "b"})
// case8
result8 := testDB.Exec(nil, utils.ToCmdLine("ZRevRangeByLex", key, "(ee", "(aa"))
asserts.AssertMultiBulkReply(t, result8, []string{"e", "d", "c", "b"})
// case9
result9 := testDB.Exec(nil, utils.ToCmdLine("ZRevRangeByLex", key, "[ee", "(aa"))
asserts.AssertMultiBulkReply(t, result9, []string{"e", "d", "c", "b"})
// case10
result10 := testDB.Exec(nil, utils.ToCmdLine("ZRevRangeByLex", key, "(ee", "[aa"))
asserts.AssertMultiBulkReply(t, result10, []string{"e", "d", "c", "b"})
// case11
result11 := testDB.Exec(nil, utils.ToCmdLine("ZRevRangeByLex", key, "[ee", "[aa"))
asserts.AssertMultiBulkReply(t, result11, []string{"e", "d", "c", "b"})
// case12
result12 := testDB.Exec(nil, utils.ToCmdLine("ZRevRangeByLex", key, "(e", "(aa"))
asserts.AssertMultiBulkReply(t, result12, []string{"d", "c", "b"})
// case13
result13 := testDB.Exec(nil, utils.ToCmdLine("ZRevRangeByLex", key, "[e", "(aa"))
asserts.AssertMultiBulkReply(t, result13, []string{"e", "d", "c", "b"})
// case14
result14 := testDB.Exec(nil, utils.ToCmdLine("ZRevRangeByLex", key, "(e", "[aa"))
asserts.AssertMultiBulkReply(t, result14, []string{"d", "c", "b"})
// case15
result15 := testDB.Exec(nil, utils.ToCmdLine("ZRevRangeByLex", key, "[e", "[aa"))
asserts.AssertMultiBulkReply(t, result15, []string{"e", "d", "c", "b"})
// case16
result16 := testDB.Exec(nil, utils.ToCmdLine("ZRevRangeByLex", key, "(ee", "(a"))
asserts.AssertMultiBulkReply(t, result16, []string{"e", "d", "c", "b"})
// case17
result17 := testDB.Exec(nil, utils.ToCmdLine("ZRevRangeByLex", key, "[ee", "(a"))
asserts.AssertMultiBulkReply(t, result17, []string{"e", "d", "c", "b"})
// case18
result18 := testDB.Exec(nil, utils.ToCmdLine("ZRevRangeByLex", key, "(ee", "[a"))
asserts.AssertMultiBulkReply(t, result18, []string{"e", "d", "c", "b", "a"})
// case19
result19 := testDB.Exec(nil, utils.ToCmdLine("ZRevRangeByLex", key, "[ee", "[a"))
asserts.AssertMultiBulkReply(t, result19, []string{"e", "d", "c", "b", "a"})
// case20
result20 := testDB.Exec(nil, utils.ToCmdLine("ZRevRangeByLex", key, "(+", "(-"))
asserts.AssertMultiBulkReplySize(t, result20, 0)
// case21
result21 := testDB.Exec(nil, utils.ToCmdLine("ZRevRangeByLex", key, "(+", "(a"))
asserts.AssertMultiBulkReplySize(t, result21, 0)
// case22
result22 := testDB.Exec(nil, utils.ToCmdLine("ZRevRangeByLex", key, "[+", "[-"))
asserts.AssertMultiBulkReplySize(t, result22, 0)
// case23
result23 := testDB.Exec(nil, utils.ToCmdLine("ZRevRangeByLex", key, "(g", "[-"))
asserts.AssertMultiBulkReply(t, result23, []string{"e", "d", "c", "b", "a"})
// case24
result24 := testDB.Exec(nil, utils.ToCmdLine("ZRevRangeByLex", key, "(c", "[-"))
asserts.AssertMultiBulkReply(t, result24, []string{"b", "a"})
// case25
result25 := testDB.Exec(nil, utils.ToCmdLine("ZRevRangeByLex", key, "[c", "[-"))
asserts.AssertMultiBulkReply(t, result25, []string{"c", "b", "a"})
// case26
result26 := testDB.Exec(nil, utils.ToCmdLine("ZRevRangeByLex", key, "(e", "(a", "limit", "0", "-1"))
asserts.AssertMultiBulkReply(t, result26, []string{"d", "c", "b"})
// case27
result27 := testDB.Exec(nil, utils.ToCmdLine("ZRevRangeByLex", key, "(e", "(a", "limit", "0", "1"))
asserts.AssertMultiBulkReply(t, result27, []string{"d"})
// case28
result28 := testDB.Exec(nil, utils.ToCmdLine("ZRevRangeByLex", key, "(e", "(a", "limit", "-1", "1"))
asserts.AssertMultiBulkReplySize(t, result28, 0)
// case29
result29 := testDB.Exec(nil, utils.ToCmdLine("ZRevRangeByLex", key, "[e", "[a", "limit", "2", "100"))
asserts.AssertMultiBulkReply(t, result29, []string{"c", "b", "a"})
// case30
result30 := testDB.Exec(nil, utils.ToCmdLine("ZRevRangeByLex", key, "+", "-", "limit", "2", "2"))
asserts.AssertMultiBulkReply(t, result30, []string{"c", "b"})
}

140
datastruct/sortedset/border.go
View File

@@ -14,10 +14,20 @@ import (
*/
const (
negativeInf int8 = -1
positiveInf int8 = 1
scoreNegativeInf int8 = -1
scorePositiveInf int8 = 1
lexNegativeInf int8 = '-'
lexPositiveInf int8 = '+'
)
type Border interface {
greater(element *Element) bool
less(element *Element) bool
getValue() interface{}
getExclude() bool
isIntersected(max Border) bool
}
// ScoreBorder represents range of a float value, including: <, <=, >, >=, +inf, -inf
type ScoreBorder struct {
Inf int8
@@ -27,10 +37,11 @@ type ScoreBorder struct {
// if max.greater(score) then the score is within the upper border
// do not use min.greater()
func (border *ScoreBorder) greater(value float64) bool {
if border.Inf == negativeInf {
func (border *ScoreBorder) greater(element *Element) bool {
value := element.Score
if border.Inf == scoreNegativeInf {
return false
} else if border.Inf == positiveInf {
} else if border.Inf == scorePositiveInf {
return true
}
if border.Exclude {
@@ -39,10 +50,11 @@ func (border *ScoreBorder) greater(value float64) bool {
return border.Value >= value
}
func (border *ScoreBorder) less(value float64) bool {
if border.Inf == negativeInf {
func (border *ScoreBorder) less(element *Element) bool {
value := element.Score
if border.Inf == scoreNegativeInf {
return true
} else if border.Inf == positiveInf {
} else if border.Inf == scorePositiveInf {
return false
}
if border.Exclude {
@@ -51,21 +63,29 @@ func (border *ScoreBorder) less(value float64) bool {
return border.Value <= value
}
var positiveInfBorder = &ScoreBorder{
Inf: positiveInf,
func (border *ScoreBorder) getValue() interface{} {
return border.Value
}
var negativeInfBorder = &ScoreBorder{
Inf: negativeInf,
func (border *ScoreBorder) getExclude() bool {
return border.Exclude
}
var scorePositiveInfBorder = &ScoreBorder{
Inf: scorePositiveInf,
}
var scoreNegativeInfBorder = &ScoreBorder{
Inf: scoreNegativeInf,
}
// ParseScoreBorder creates ScoreBorder from redis arguments
func ParseScoreBorder(s string) (*ScoreBorder, error) {
func ParseScoreBorder(s string) (Border, error) {
if s == "inf" || s == "+inf" {
return positiveInfBorder, nil
return scorePositiveInfBorder, nil
}
if s == "-inf" {
return negativeInfBorder, nil
return scoreNegativeInfBorder, nil
}
if s[0] == '(' {
value, err := strconv.ParseFloat(s[1:], 64)
@@ -88,3 +108,93 @@ func ParseScoreBorder(s string) (*ScoreBorder, error) {
Exclude: false,
}, nil
}
func (border *ScoreBorder) isIntersected(max Border) bool {
minValue := border.Value
maxValue := max.(*ScoreBorder).Value
return minValue > maxValue || (minValue == maxValue && (border.getExclude() || max.getExclude()))
}
// LexBorder represents range of a string value, including: <, <=, >, >=, +, -
type LexBorder struct {
Inf int8
Value string
Exclude bool
}
// if max.greater(lex) then the lex is within the upper border
// do not use min.greater()
func (border *LexBorder) greater(element *Element) bool {
value := element.Member
if border.Inf == lexNegativeInf {
return false
} else if border.Inf == lexPositiveInf {
return true
}
if border.Exclude {
return border.Value > value
}
return border.Value >= value
}
func (border *LexBorder) less(element *Element) bool {
value := element.Member
if border.Inf == lexNegativeInf {
return true
} else if border.Inf == lexPositiveInf {
return false
}
if border.Exclude {
return border.Value < value
}
return border.Value <= value
}
func (border *LexBorder) getValue() interface{} {
return border.Value
}
func (border *LexBorder) getExclude() bool {
return border.Exclude
}
var lexPositiveInfBorder = &LexBorder{
Inf: lexPositiveInf,
}
var lexNegativeInfBorder = &LexBorder{
Inf: lexNegativeInf,
}
// ParseLexBorder creates LexBorder from redis arguments
func ParseLexBorder(s string) (Border, error) {
if s == "+" {
return lexPositiveInfBorder, nil
}
if s == "-" {
return lexNegativeInfBorder, nil
}
if s[0] == '(' {
return &LexBorder{
Inf: 0,
Value: s[1:],
Exclude: true,
}, nil
}
if s[0] == '[' {
return &LexBorder{
Inf: 0,
Value: s[1:],
Exclude: false,
}, nil
}
return nil, errors.New("ERR min or max not valid string range item")
}
func (border *LexBorder) isIntersected(max Border) bool {
minValue := border.Value
maxValue := max.(*LexBorder).Value
return border.Inf == '+' || minValue > maxValue || (minValue == maxValue && (border.getExclude() || max.getExclude()))
}

28
datastruct/sortedset/skiplist.go
View File

@@ -221,25 +221,25 @@ func (skiplist *skiplist) getByRank(rank int64) *node {
return nil
}
func (skiplist *skiplist) hasInRange(min *ScoreBorder, max *ScoreBorder) bool {
// min & max = empty
if min.Value > max.Value || (min.Value == max.Value && (min.Exclude || max.Exclude)) {
func (skiplist *skiplist) hasInRange(min Border, max Border) bool {
if min.isIntersected(max) { //是有交集的则返回false
return false
}
// min > tail
n := skiplist.tail
if n == nil || !min.less(n.Score) {
if n == nil || !min.less(&n.Element) {
return false
}
// max < head
n = skiplist.header.level[0].forward
if n == nil || !max.greater(n.Score) {
if n == nil || !max.greater(&n.Element) {
return false
}
return true
}
func (skiplist *skiplist) getFirstInScoreRange(min *ScoreBorder, max *ScoreBorder) *node {
func (skiplist *skiplist) getFirstInRange(min Border, max Border) *node {
if !skiplist.hasInRange(min, max) {
return nil
}
@@ -247,30 +247,30 @@ func (skiplist *skiplist) getFirstInScoreRange(min *ScoreBorder, max *ScoreBorde
// scan from top level
for level := skiplist.level - 1; level >= 0; level-- {
// if forward is not in range than move forward
for n.level[level].forward != nil && !min.less(n.level[level].forward.Score) {
for n.level[level].forward != nil && !min.less(&n.level[level].forward.Element) {
n = n.level[level].forward
}
}
/* This is an inner range, so the next node cannot be NULL. */
n = n.level[0].forward
if !max.greater(n.Score) {
if !max.greater(&n.Element) {
return nil
}
return n
}
func (skiplist *skiplist) getLastInScoreRange(min *ScoreBorder, max *ScoreBorder) *node {
func (skiplist *skiplist) getLastInRange(min Border, max Border) *node {
if !skiplist.hasInRange(min, max) {
return nil
}
n := skiplist.header
// scan from top level
for level := skiplist.level - 1; level >= 0; level-- {
for n.level[level].forward != nil && max.greater(n.level[level].forward.Score) {
for n.level[level].forward != nil && max.greater(&n.level[level].forward.Element) {
n = n.level[level].forward
}
}
if !min.less(n.Score) {
if !min.less(&n.Element) {
return nil
}
return n
@@ -279,14 +279,14 @@ func (skiplist *skiplist) getLastInScoreRange(min *ScoreBorder, max *ScoreBorder
/*
* return removed elements
*/
func (skiplist *skiplist) RemoveRangeByScore(min *ScoreBorder, max *ScoreBorder, limit int) (removed []*Element) {
func (skiplist *skiplist) RemoveRange(min Border, max Border, limit int) (removed []*Element) {
update := make([]*node, maxLevel)
removed = make([]*Element, 0)
// find backward nodes (of target range) or last node of each level
node := skiplist.header
for i := skiplist.level - 1; i >= 0; i-- {
for node.level[i].forward != nil {
if min.less(node.level[i].forward.Score) { // already in range
if min.less(&node.level[i].forward.Element) { // already in range
break
}
node = node.level[i].forward
@@ -299,7 +299,7 @@ func (skiplist *skiplist) RemoveRangeByScore(min *ScoreBorder, max *ScoreBorder,
// remove nodes in range
for node != nil {
if !max.greater(node.Score) { // already out of range
if !max.greater(&node.Element) { // already out of range
break
}
next := node.level[0].forward

50
datastruct/sortedset/sortedset.go
View File

@@ -18,7 +18,7 @@ func Make() *SortedSet {
}
}
// Add puts member into set, and returns whether has inserted new node
// Add puts member into set, and returns whether it has inserted new node
func (sortedSet *SortedSet) Add(member string, score float64) bool {
element, ok := sortedSet.dict[member]
sortedSet.dict[member] = &Element{
@@ -76,8 +76,8 @@ func (sortedSet *SortedSet) GetRank(member string, desc bool) (rank int64) {
return r
}
// ForEach visits each member which rank within [start, stop), sort by ascending order, rank starts from 0
func (sortedSet *SortedSet) ForEach(start int64, stop int64, desc bool, consumer func(element *Element) bool) {
// ForEachByRank visits each member which rank within [start, stop), sort by ascending order, rank starts from 0
func (sortedSet *SortedSet) ForEachByRank(start int64, stop int64, desc bool, consumer func(element *Element) bool) {
size := int64(sortedSet.Len())
if start < 0 || start >= size {
panic("illegal start " + strconv.FormatInt(start, 10))
@@ -113,12 +113,12 @@ func (sortedSet *SortedSet) ForEach(start int64, stop int64, desc bool, consumer
}
}
// Range returns members which rank within [start, stop), sort by ascending order, rank starts from 0
func (sortedSet *SortedSet) Range(start int64, stop int64, desc bool) []*Element {
// RangeByRank returns members which rank within [start, stop), sort by ascending order, rank starts from 0
func (sortedSet *SortedSet) RangeByRank(start int64, stop int64, desc bool) []*Element {
sliceSize := int(stop - start)
slice := make([]*Element, sliceSize)
i := 0
sortedSet.ForEach(start, stop, desc, func(element *Element) bool {
sortedSet.ForEachByRank(start, stop, desc, func(element *Element) bool {
slice[i] = element
i++
return true
@@ -126,17 +126,17 @@ func (sortedSet *SortedSet) Range(start int64, stop int64, desc bool) []*Element
return slice
}
// Count returns the number of members which score within the given border
func (sortedSet *SortedSet) Count(min *ScoreBorder, max *ScoreBorder) int64 {
// RangeCount returns the number of members which score or member within the given border
func (sortedSet *SortedSet) RangeCount(min Border, max Border) int64 {
var i int64 = 0
// ascending order
sortedSet.ForEach(0, sortedSet.Len(), false, func(element *Element) bool {
gtMin := min.less(element.Score) // greater than min
sortedSet.ForEachByRank(0, sortedSet.Len(), false, func(element *Element) bool {
gtMin := min.less(element) // greater than min
if !gtMin {
// has not into range, continue foreach
return true
}
ltMax := max.greater(element.Score) // less than max
ltMax := max.greater(element) // less than max
if !ltMax {
// break through score border, break foreach
return false
@@ -148,14 +148,14 @@ func (sortedSet *SortedSet) Count(min *ScoreBorder, max *ScoreBorder) int64 {
return i
}
// ForEachByScore visits members which score within the given border
func (sortedSet *SortedSet) ForEachByScore(min *ScoreBorder, max *ScoreBorder, offset int64, limit int64, desc bool, consumer func(element *Element) bool) {
// ForEach visits members which score or member within the given border
func (sortedSet *SortedSet) ForEach(min Border, max Border, offset int64, limit int64, desc bool, consumer func(element *Element) bool) {
// find start node
var node *node
if desc {
node = sortedSet.skiplist.getLastInScoreRange(min, max)
node = sortedSet.skiplist.getLastInRange(min, max)
} else {
node = sortedSet.skiplist.getFirstInScoreRange(min, max)
node = sortedSet.skiplist.getFirstInRange(min, max)
}
for node != nil && offset > 0 {
@@ -180,31 +180,31 @@ func (sortedSet *SortedSet) ForEachByScore(min *ScoreBorder, max *ScoreBorder, o
if node == nil {
break
}
gtMin := min.less(node.Element.Score) // greater than min
ltMax := max.greater(node.Element.Score)
gtMin := min.less(&node.Element) // greater than min
ltMax := max.greater(&node.Element)
if !gtMin || !ltMax {
break // break through score border
}
}
}
// RangeByScore returns members which score within the given border
// Range returns members which score or member within the given border
// param limit: <0 means no limit
func (sortedSet *SortedSet) RangeByScore(min *ScoreBorder, max *ScoreBorder, offset int64, limit int64, desc bool) []*Element {
func (sortedSet *SortedSet) Range(min Border, max Border, offset int64, limit int64, desc bool) []*Element {
if limit == 0 || offset < 0 {
return make([]*Element, 0)
}
slice := make([]*Element, 0)
sortedSet.ForEachByScore(min, max, offset, limit, desc, func(element *Element) bool {
sortedSet.ForEach(min, max, offset, limit, desc, func(element *Element) bool {
slice = append(slice, element)
return true
})
return slice
}
// RemoveByScore removes members which score within the given border
func (sortedSet *SortedSet) RemoveByScore(min *ScoreBorder, max *ScoreBorder) int64 {
removed := sortedSet.skiplist.RemoveRangeByScore(min, max, 0)
// RemoveRange removes members which score or member within the given border
func (sortedSet *SortedSet) RemoveRange(min Border, max Border) int64 {
removed := sortedSet.skiplist.RemoveRange(min, max, 0)
for _, element := range removed {
delete(sortedSet.dict, element.Member)
}
@@ -212,7 +212,7 @@ func (sortedSet *SortedSet) RemoveByScore(min *ScoreBorder, max *ScoreBorder) in
}
func (sortedSet *SortedSet) PopMin(count int) []*Element {
first := sortedSet.skiplist.getFirstInScoreRange(negativeInfBorder, positiveInfBorder)
first := sortedSet.skiplist.getFirstInRange(scoreNegativeInfBorder, scorePositiveInfBorder)
if first == nil {
return nil
}
@@ -220,7 +220,7 @@ func (sortedSet *SortedSet) PopMin(count int) []*Element {
Value: first.Score,
Exclude: false,
}
removed := sortedSet.skiplist.RemoveRangeByScore(border, positiveInfBorder, count)
removed := sortedSet.skiplist.RemoveRange(border, scorePositiveInfBorder, count)
for _, element := range removed {
delete(sortedSet.dict, element.Member)
}