mihomo/component/trie/domain_set.go

176 lines
4.3 KiB
Go
Raw Permalink Normal View History

package trie
// Package succinct provides several succinct data types.
// Modify from https://github.com/openacid/succinct/blob/d4684c35d123f7528b14e03c24327231723db704/sskv.go
import (
"sort"
"strings"
"github.com/Dreamacro/clash/common/utils"
"github.com/openacid/low/bitmap"
)
const (
complexWildcardByte = byte('+')
wildcardByte = byte('*')
domainStepByte = byte('.')
)
type DomainSet struct {
leaves, labelBitmap []uint64
labels []byte
ranks, selects []int32
}
2023-06-06 10:47:50 +08:00
type qElt struct{ s, e, col int }
// NewDomainSet creates a new *DomainSet struct, from a DomainTrie.
func (t *DomainTrie[T]) NewDomainSet() *DomainSet {
reserveDomains := make([]string, 0)
t.Foreach(func(domain string, data T) {
reserveDomains = append(reserveDomains, utils.Reverse(domain))
})
// ensure that the same prefix is continuous
// and according to the ascending sequence of length
sort.Strings(reserveDomains)
keys := reserveDomains
if len(keys) == 0 {
return nil
}
ss := &DomainSet{}
lIdx := 0
queue := []qElt{{0, len(keys), 0}}
for i := 0; i < len(queue); i++ {
elt := queue[i]
if elt.col == len(keys[elt.s]) {
elt.s++
// a leaf node
setBit(&ss.leaves, i, 1)
}
for j := elt.s; j < elt.e; {
frm := j
for ; j < elt.e && keys[j][elt.col] == keys[frm][elt.col]; j++ {
}
queue = append(queue, qElt{frm, j, elt.col + 1})
ss.labels = append(ss.labels, keys[frm][elt.col])
setBit(&ss.labelBitmap, lIdx, 0)
lIdx++
}
setBit(&ss.labelBitmap, lIdx, 1)
lIdx++
}
ss.init()
return ss
}
// Has query for a key and return whether it presents in the DomainSet.
func (ss *DomainSet) Has(key string) bool {
if ss == nil {
return false
}
key = utils.Reverse(key)
key = strings.ToLower(key)
// no more labels in this node
// skip character matching
// go to next level
nodeId, bmIdx := 0, 0
type wildcardCursor struct {
bmIdx, index int
}
stack := make([]wildcardCursor, 0)
for i := 0; i < len(key); i++ {
RESTART:
c := key[i]
for ; ; bmIdx++ {
if getBit(ss.labelBitmap, bmIdx) != 0 {
if len(stack) > 0 {
cursor := stack[len(stack)-1]
stack = stack[0 : len(stack)-1]
// back wildcard and find next node
nextNodeId := countZeros(ss.labelBitmap, ss.ranks, cursor.bmIdx+1)
nextBmIdx := selectIthOne(ss.labelBitmap, ss.ranks, ss.selects, nextNodeId-1) + 1
j := cursor.index
for ; j < len(key) && key[j] != domainStepByte; j++ {
}
if j == len(key) {
if getBit(ss.leaves, nextNodeId) != 0 {
return true
} else {
goto RESTART
}
}
2023-04-29 00:55:35 +08:00
for ; nextBmIdx-nextNodeId < len(ss.labels); nextBmIdx++ {
if ss.labels[nextBmIdx-nextNodeId] == domainStepByte {
bmIdx = nextBmIdx
nodeId = nextNodeId
i = j
goto RESTART
}
}
}
return false
}
// handle wildcard for domain
if ss.labels[bmIdx-nodeId] == complexWildcardByte {
return true
} else if ss.labels[bmIdx-nodeId] == wildcardByte {
cursor := wildcardCursor{}
cursor.bmIdx = bmIdx
cursor.index = i
stack = append(stack, cursor)
} else if ss.labels[bmIdx-nodeId] == c {
break
}
}
nodeId = countZeros(ss.labelBitmap, ss.ranks, bmIdx+1)
bmIdx = selectIthOne(ss.labelBitmap, ss.ranks, ss.selects, nodeId-1) + 1
}
return getBit(ss.leaves, nodeId) != 0
}
func setBit(bm *[]uint64, i int, v int) {
for i>>6 >= len(*bm) {
*bm = append(*bm, 0)
}
(*bm)[i>>6] |= uint64(v) << uint(i&63)
}
func getBit(bm []uint64, i int) uint64 {
return bm[i>>6] & (1 << uint(i&63))
}
// init builds pre-calculated cache to speed up rank() and select()
func (ss *DomainSet) init() {
ss.selects, ss.ranks = bitmap.IndexSelect32R64(ss.labelBitmap)
}
// countZeros counts the number of "0" in a bitmap before the i-th bit(excluding
// the i-th bit) on behalf of rank index.
// E.g.:
//
// countZeros("010010", 4) == 3
// // 012345
func countZeros(bm []uint64, ranks []int32, i int) int {
a, _ := bitmap.Rank64(bm, ranks, int32(i))
return i - int(a)
}
// selectIthOne returns the index of the i-th "1" in a bitmap, on behalf of rank
// and select indexes.
// E.g.:
//
// selectIthOne("010010", 1) == 4
// // 012345
func selectIthOne(bm []uint64, ranks, selects []int32, i int) int {
a, _ := bitmap.Select32R64(bm, selects, ranks, int32(i))
return int(a)
}