mirror of
https://github.com/go-gitea/gitea
synced 2024-11-09 19:54:25 +00:00
fdf750e4d4
* Update blevesearch v0.8.1 -> v1.0.7 * make vendor Co-authored-by: zeripath <art27@cantab.net>
611 lines
9.2 KiB
Go
Vendored
611 lines
9.2 KiB
Go
Vendored
package roaring
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func equal(a, b []uint16) bool {
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if len(a) != len(b) {
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return false
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}
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for i := range a {
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if a[i] != b[i] {
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return false
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}
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}
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return true
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}
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func difference(set1 []uint16, set2 []uint16, buffer []uint16) int {
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if 0 == len(set2) {
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buffer = buffer[:len(set1)]
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for k := 0; k < len(set1); k++ {
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buffer[k] = set1[k]
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}
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return len(set1)
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}
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if 0 == len(set1) {
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return 0
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}
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pos := 0
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k1 := 0
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k2 := 0
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buffer = buffer[:cap(buffer)]
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s1 := set1[k1]
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s2 := set2[k2]
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for {
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if s1 < s2 {
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buffer[pos] = s1
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pos++
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k1++
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if k1 >= len(set1) {
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break
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}
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s1 = set1[k1]
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} else if s1 == s2 {
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k1++
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k2++
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if k1 >= len(set1) {
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break
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}
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s1 = set1[k1]
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if k2 >= len(set2) {
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for ; k1 < len(set1); k1++ {
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buffer[pos] = set1[k1]
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pos++
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}
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break
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}
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s2 = set2[k2]
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} else { // if (val1>val2)
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k2++
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if k2 >= len(set2) {
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for ; k1 < len(set1); k1++ {
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buffer[pos] = set1[k1]
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pos++
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}
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break
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}
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s2 = set2[k2]
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}
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}
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return pos
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}
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func exclusiveUnion2by2(set1 []uint16, set2 []uint16, buffer []uint16) int {
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if 0 == len(set2) {
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buffer = buffer[:len(set1)]
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copy(buffer, set1[:])
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return len(set1)
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}
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if 0 == len(set1) {
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buffer = buffer[:len(set2)]
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copy(buffer, set2[:])
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return len(set2)
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}
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pos := 0
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k1 := 0
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k2 := 0
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s1 := set1[k1]
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s2 := set2[k2]
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buffer = buffer[:cap(buffer)]
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for {
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if s1 < s2 {
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buffer[pos] = s1
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pos++
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k1++
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if k1 >= len(set1) {
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for ; k2 < len(set2); k2++ {
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buffer[pos] = set2[k2]
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pos++
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}
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break
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}
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s1 = set1[k1]
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} else if s1 == s2 {
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k1++
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k2++
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if k1 >= len(set1) {
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for ; k2 < len(set2); k2++ {
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buffer[pos] = set2[k2]
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pos++
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}
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break
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}
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if k2 >= len(set2) {
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for ; k1 < len(set1); k1++ {
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buffer[pos] = set1[k1]
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pos++
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}
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break
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}
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s1 = set1[k1]
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s2 = set2[k2]
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} else { // if (val1>val2)
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buffer[pos] = s2
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pos++
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k2++
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if k2 >= len(set2) {
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for ; k1 < len(set1); k1++ {
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buffer[pos] = set1[k1]
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pos++
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}
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break
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}
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s2 = set2[k2]
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}
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}
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return pos
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}
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func union2by2(set1 []uint16, set2 []uint16, buffer []uint16) int {
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pos := 0
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k1 := 0
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k2 := 0
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if 0 == len(set2) {
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buffer = buffer[:len(set1)]
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copy(buffer, set1[:])
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return len(set1)
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}
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if 0 == len(set1) {
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buffer = buffer[:len(set2)]
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copy(buffer, set2[:])
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return len(set2)
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}
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s1 := set1[k1]
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s2 := set2[k2]
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buffer = buffer[:cap(buffer)]
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for {
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if s1 < s2 {
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buffer[pos] = s1
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pos++
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k1++
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if k1 >= len(set1) {
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copy(buffer[pos:], set2[k2:])
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pos += len(set2) - k2
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break
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}
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s1 = set1[k1]
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} else if s1 == s2 {
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buffer[pos] = s1
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pos++
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k1++
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k2++
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if k1 >= len(set1) {
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copy(buffer[pos:], set2[k2:])
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pos += len(set2) - k2
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break
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}
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if k2 >= len(set2) {
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copy(buffer[pos:], set1[k1:])
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pos += len(set1) - k1
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break
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}
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s1 = set1[k1]
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s2 = set2[k2]
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} else { // if (set1[k1]>set2[k2])
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buffer[pos] = s2
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pos++
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k2++
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if k2 >= len(set2) {
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copy(buffer[pos:], set1[k1:])
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pos += len(set1) - k1
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break
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}
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s2 = set2[k2]
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}
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}
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return pos
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}
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func union2by2Cardinality(set1 []uint16, set2 []uint16) int {
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pos := 0
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k1 := 0
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k2 := 0
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if 0 == len(set2) {
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return len(set1)
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}
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if 0 == len(set1) {
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return len(set2)
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}
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s1 := set1[k1]
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s2 := set2[k2]
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for {
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if s1 < s2 {
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pos++
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k1++
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if k1 >= len(set1) {
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pos += len(set2) - k2
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break
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}
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s1 = set1[k1]
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} else if s1 == s2 {
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pos++
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k1++
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k2++
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if k1 >= len(set1) {
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pos += len(set2) - k2
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break
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}
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if k2 >= len(set2) {
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pos += len(set1) - k1
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break
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}
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s1 = set1[k1]
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s2 = set2[k2]
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} else { // if (set1[k1]>set2[k2])
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pos++
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k2++
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if k2 >= len(set2) {
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pos += len(set1) - k1
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break
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}
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s2 = set2[k2]
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}
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}
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return pos
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}
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func intersection2by2(
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set1 []uint16,
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set2 []uint16,
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buffer []uint16) int {
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if len(set1)*64 < len(set2) {
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return onesidedgallopingintersect2by2(set1, set2, buffer)
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} else if len(set2)*64 < len(set1) {
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return onesidedgallopingintersect2by2(set2, set1, buffer)
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} else {
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return localintersect2by2(set1, set2, buffer)
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}
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}
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func intersection2by2Cardinality(
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set1 []uint16,
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set2 []uint16) int {
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if len(set1)*64 < len(set2) {
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return onesidedgallopingintersect2by2Cardinality(set1, set2)
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} else if len(set2)*64 < len(set1) {
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return onesidedgallopingintersect2by2Cardinality(set2, set1)
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} else {
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return localintersect2by2Cardinality(set1, set2)
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}
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}
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func intersects2by2(
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set1 []uint16,
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set2 []uint16) bool {
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// could be optimized if one set is much larger than the other one
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if (0 == len(set1)) || (0 == len(set2)) {
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return false
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}
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k1 := 0
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k2 := 0
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s1 := set1[k1]
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s2 := set2[k2]
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mainwhile:
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for {
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if s2 < s1 {
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for {
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k2++
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if k2 == len(set2) {
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break mainwhile
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}
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s2 = set2[k2]
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if s2 >= s1 {
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break
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}
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}
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}
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if s1 < s2 {
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for {
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k1++
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if k1 == len(set1) {
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break mainwhile
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}
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s1 = set1[k1]
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if s1 >= s2 {
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break
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}
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}
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} else {
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// (set2[k2] == set1[k1])
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return true
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}
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}
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return false
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}
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func localintersect2by2(
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set1 []uint16,
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set2 []uint16,
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buffer []uint16) int {
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if (0 == len(set1)) || (0 == len(set2)) {
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return 0
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}
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k1 := 0
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k2 := 0
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pos := 0
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buffer = buffer[:cap(buffer)]
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s1 := set1[k1]
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s2 := set2[k2]
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mainwhile:
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for {
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if s2 < s1 {
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for {
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k2++
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if k2 == len(set2) {
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break mainwhile
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}
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s2 = set2[k2]
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if s2 >= s1 {
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break
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}
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}
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}
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if s1 < s2 {
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for {
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k1++
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if k1 == len(set1) {
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break mainwhile
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}
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s1 = set1[k1]
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if s1 >= s2 {
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break
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}
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}
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} else {
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// (set2[k2] == set1[k1])
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buffer[pos] = s1
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pos++
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k1++
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if k1 == len(set1) {
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break
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}
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s1 = set1[k1]
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k2++
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if k2 == len(set2) {
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break
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}
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s2 = set2[k2]
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}
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}
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return pos
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}
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func localintersect2by2Cardinality(
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set1 []uint16,
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set2 []uint16) int {
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if (0 == len(set1)) || (0 == len(set2)) {
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return 0
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}
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k1 := 0
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k2 := 0
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pos := 0
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s1 := set1[k1]
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s2 := set2[k2]
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mainwhile:
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for {
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if s2 < s1 {
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for {
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k2++
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if k2 == len(set2) {
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break mainwhile
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}
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s2 = set2[k2]
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if s2 >= s1 {
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break
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}
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}
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}
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if s1 < s2 {
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for {
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k1++
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if k1 == len(set1) {
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break mainwhile
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}
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s1 = set1[k1]
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if s1 >= s2 {
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break
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}
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}
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} else {
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// (set2[k2] == set1[k1])
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pos++
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k1++
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if k1 == len(set1) {
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break
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}
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s1 = set1[k1]
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k2++
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if k2 == len(set2) {
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break
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}
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s2 = set2[k2]
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}
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}
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return pos
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}
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func advanceUntil(
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array []uint16,
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pos int,
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length int,
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min uint16) int {
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lower := pos + 1
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if lower >= length || array[lower] >= min {
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return lower
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}
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spansize := 1
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for lower+spansize < length && array[lower+spansize] < min {
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spansize *= 2
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}
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var upper int
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if lower+spansize < length {
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upper = lower + spansize
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} else {
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upper = length - 1
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}
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if array[upper] == min {
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return upper
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}
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if array[upper] < min {
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// means
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// array
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// has no
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// item
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// >= min
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// pos = array.length;
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return length
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}
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// we know that the next-smallest span was too small
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lower += (spansize >> 1)
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mid := 0
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for lower+1 != upper {
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mid = (lower + upper) >> 1
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if array[mid] == min {
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return mid
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} else if array[mid] < min {
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lower = mid
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} else {
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upper = mid
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}
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}
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return upper
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}
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func onesidedgallopingintersect2by2(
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smallset []uint16,
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largeset []uint16,
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buffer []uint16) int {
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if 0 == len(smallset) {
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return 0
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}
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buffer = buffer[:cap(buffer)]
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k1 := 0
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k2 := 0
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pos := 0
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s1 := largeset[k1]
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s2 := smallset[k2]
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mainwhile:
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for {
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if s1 < s2 {
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k1 = advanceUntil(largeset, k1, len(largeset), s2)
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if k1 == len(largeset) {
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break mainwhile
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}
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s1 = largeset[k1]
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}
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if s2 < s1 {
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k2++
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if k2 == len(smallset) {
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break mainwhile
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}
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s2 = smallset[k2]
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} else {
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buffer[pos] = s2
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pos++
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k2++
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if k2 == len(smallset) {
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break
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}
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s2 = smallset[k2]
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k1 = advanceUntil(largeset, k1, len(largeset), s2)
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if k1 == len(largeset) {
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break mainwhile
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}
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s1 = largeset[k1]
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}
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}
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return pos
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}
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func onesidedgallopingintersect2by2Cardinality(
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smallset []uint16,
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largeset []uint16) int {
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if 0 == len(smallset) {
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return 0
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}
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k1 := 0
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k2 := 0
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pos := 0
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s1 := largeset[k1]
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s2 := smallset[k2]
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mainwhile:
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for {
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if s1 < s2 {
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k1 = advanceUntil(largeset, k1, len(largeset), s2)
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if k1 == len(largeset) {
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break mainwhile
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}
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s1 = largeset[k1]
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}
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if s2 < s1 {
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k2++
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if k2 == len(smallset) {
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break mainwhile
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}
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s2 = smallset[k2]
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} else {
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pos++
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k2++
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if k2 == len(smallset) {
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break
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}
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s2 = smallset[k2]
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k1 = advanceUntil(largeset, k1, len(largeset), s2)
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if k1 == len(largeset) {
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break mainwhile
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}
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s1 = largeset[k1]
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}
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}
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return pos
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}
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func binarySearch(array []uint16, ikey uint16) int {
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low := 0
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high := len(array) - 1
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for low+16 <= high {
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middleIndex := int(uint32(low+high) >> 1)
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middleValue := array[middleIndex]
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if middleValue < ikey {
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low = middleIndex + 1
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} else if middleValue > ikey {
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high = middleIndex - 1
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} else {
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return middleIndex
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}
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}
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for ; low <= high; low++ {
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val := array[low]
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if val >= ikey {
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if val == ikey {
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return low
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}
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break
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}
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}
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return -(low + 1)
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}
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