mirror of https://github.com/go-gitea/gitea.git
981 lines
24 KiB
Go
981 lines
24 KiB
Go
package roaring
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import (
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"fmt"
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)
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//go:generate msgp -unexported
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type arrayContainer struct {
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content []uint16
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}
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func (ac *arrayContainer) String() string {
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s := "{"
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for it := ac.getShortIterator(); it.hasNext(); {
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s += fmt.Sprintf("%v, ", it.next())
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}
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return s + "}"
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}
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func (ac *arrayContainer) fillLeastSignificant16bits(x []uint32, i int, mask uint32) {
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for k := 0; k < len(ac.content); k++ {
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x[k+i] = uint32(ac.content[k]) | mask
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}
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}
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func (ac *arrayContainer) iterate(cb func(x uint16) bool) bool {
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iterator := shortIterator{ac.content, 0}
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for iterator.hasNext() {
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if !cb(iterator.next()) {
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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 (ac *arrayContainer) getShortIterator() shortPeekable {
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return &shortIterator{ac.content, 0}
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}
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func (ac *arrayContainer) getReverseIterator() shortIterable {
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return &reverseIterator{ac.content, len(ac.content) - 1}
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}
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func (ac *arrayContainer) getManyIterator() manyIterable {
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return &shortIterator{ac.content, 0}
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}
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func (ac *arrayContainer) minimum() uint16 {
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return ac.content[0] // assume not empty
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}
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func (ac *arrayContainer) maximum() uint16 {
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return ac.content[len(ac.content)-1] // assume not empty
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}
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func (ac *arrayContainer) getSizeInBytes() int {
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return ac.getCardinality() * 2
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}
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func (ac *arrayContainer) serializedSizeInBytes() int {
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return ac.getCardinality() * 2
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}
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func arrayContainerSizeInBytes(card int) int {
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return card * 2
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}
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// add the values in the range [firstOfRange,endx)
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func (ac *arrayContainer) iaddRange(firstOfRange, endx int) container {
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if firstOfRange >= endx {
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return ac
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}
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indexstart := binarySearch(ac.content, uint16(firstOfRange))
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if indexstart < 0 {
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indexstart = -indexstart - 1
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}
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indexend := binarySearch(ac.content, uint16(endx-1))
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if indexend < 0 {
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indexend = -indexend - 1
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} else {
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indexend++
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}
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rangelength := endx - firstOfRange
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newcardinality := indexstart + (ac.getCardinality() - indexend) + rangelength
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if newcardinality > arrayDefaultMaxSize {
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a := ac.toBitmapContainer()
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return a.iaddRange(firstOfRange, endx)
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}
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if cap(ac.content) < newcardinality {
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tmp := make([]uint16, newcardinality, newcardinality)
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copy(tmp[:indexstart], ac.content[:indexstart])
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copy(tmp[indexstart+rangelength:], ac.content[indexend:])
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ac.content = tmp
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} else {
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ac.content = ac.content[:newcardinality]
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copy(ac.content[indexstart+rangelength:], ac.content[indexend:])
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}
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for k := 0; k < rangelength; k++ {
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ac.content[k+indexstart] = uint16(firstOfRange + k)
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}
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return ac
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}
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// remove the values in the range [firstOfRange,endx)
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func (ac *arrayContainer) iremoveRange(firstOfRange, endx int) container {
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if firstOfRange >= endx {
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return ac
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}
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indexstart := binarySearch(ac.content, uint16(firstOfRange))
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if indexstart < 0 {
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indexstart = -indexstart - 1
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}
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indexend := binarySearch(ac.content, uint16(endx-1))
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if indexend < 0 {
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indexend = -indexend - 1
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} else {
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indexend++
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}
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rangelength := indexend - indexstart
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answer := ac
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copy(answer.content[indexstart:], ac.content[indexstart+rangelength:])
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answer.content = answer.content[:ac.getCardinality()-rangelength]
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return answer
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}
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// flip the values in the range [firstOfRange,endx)
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func (ac *arrayContainer) not(firstOfRange, endx int) container {
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if firstOfRange >= endx {
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return ac.clone()
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}
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return ac.notClose(firstOfRange, endx-1) // remove everything in [firstOfRange,endx-1]
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}
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// flip the values in the range [firstOfRange,lastOfRange]
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func (ac *arrayContainer) notClose(firstOfRange, lastOfRange int) container {
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if firstOfRange > lastOfRange { // unlike add and remove, not uses an inclusive range [firstOfRange,lastOfRange]
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return ac.clone()
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}
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// determine the span of array indices to be affected^M
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startIndex := binarySearch(ac.content, uint16(firstOfRange))
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if startIndex < 0 {
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startIndex = -startIndex - 1
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}
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lastIndex := binarySearch(ac.content, uint16(lastOfRange))
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if lastIndex < 0 {
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lastIndex = -lastIndex - 2
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}
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currentValuesInRange := lastIndex - startIndex + 1
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spanToBeFlipped := lastOfRange - firstOfRange + 1
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newValuesInRange := spanToBeFlipped - currentValuesInRange
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cardinalityChange := newValuesInRange - currentValuesInRange
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newCardinality := len(ac.content) + cardinalityChange
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if newCardinality > arrayDefaultMaxSize {
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return ac.toBitmapContainer().not(firstOfRange, lastOfRange+1)
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}
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answer := newArrayContainer()
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answer.content = make([]uint16, newCardinality, newCardinality) //a hack for sure
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copy(answer.content, ac.content[:startIndex])
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outPos := startIndex
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inPos := startIndex
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valInRange := firstOfRange
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for ; valInRange <= lastOfRange && inPos <= lastIndex; valInRange++ {
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if uint16(valInRange) != ac.content[inPos] {
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answer.content[outPos] = uint16(valInRange)
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outPos++
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} else {
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inPos++
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}
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}
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for ; valInRange <= lastOfRange; valInRange++ {
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answer.content[outPos] = uint16(valInRange)
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outPos++
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}
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for i := lastIndex + 1; i < len(ac.content); i++ {
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answer.content[outPos] = ac.content[i]
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outPos++
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}
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answer.content = answer.content[:newCardinality]
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return answer
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}
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func (ac *arrayContainer) equals(o container) bool {
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srb, ok := o.(*arrayContainer)
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if ok {
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// Check if the containers are the same object.
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if ac == srb {
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return true
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}
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if len(srb.content) != len(ac.content) {
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return false
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}
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for i, v := range ac.content {
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if v != srb.content[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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// use generic comparison
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bCard := o.getCardinality()
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aCard := ac.getCardinality()
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if bCard != aCard {
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return false
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}
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ait := ac.getShortIterator()
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bit := o.getShortIterator()
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for ait.hasNext() {
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if bit.next() != ait.next() {
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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 (ac *arrayContainer) toBitmapContainer() *bitmapContainer {
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bc := newBitmapContainer()
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bc.loadData(ac)
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return bc
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}
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func (ac *arrayContainer) iadd(x uint16) (wasNew bool) {
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// Special case adding to the end of the container.
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l := len(ac.content)
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if l > 0 && l < arrayDefaultMaxSize && ac.content[l-1] < x {
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ac.content = append(ac.content, x)
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return true
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}
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loc := binarySearch(ac.content, x)
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if loc < 0 {
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s := ac.content
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i := -loc - 1
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s = append(s, 0)
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copy(s[i+1:], s[i:])
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s[i] = x
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ac.content = s
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return true
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}
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return false
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}
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func (ac *arrayContainer) iaddReturnMinimized(x uint16) container {
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// Special case adding to the end of the container.
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l := len(ac.content)
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if l > 0 && l < arrayDefaultMaxSize && ac.content[l-1] < x {
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ac.content = append(ac.content, x)
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return ac
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}
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loc := binarySearch(ac.content, x)
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if loc < 0 {
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if len(ac.content) >= arrayDefaultMaxSize {
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a := ac.toBitmapContainer()
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a.iadd(x)
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return a
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}
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s := ac.content
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i := -loc - 1
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s = append(s, 0)
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copy(s[i+1:], s[i:])
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s[i] = x
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ac.content = s
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}
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return ac
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}
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// iremoveReturnMinimized is allowed to change the return type to minimize storage.
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func (ac *arrayContainer) iremoveReturnMinimized(x uint16) container {
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ac.iremove(x)
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return ac
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}
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func (ac *arrayContainer) iremove(x uint16) bool {
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loc := binarySearch(ac.content, x)
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if loc >= 0 {
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s := ac.content
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s = append(s[:loc], s[loc+1:]...)
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ac.content = s
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return true
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}
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return false
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}
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func (ac *arrayContainer) remove(x uint16) container {
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out := &arrayContainer{make([]uint16, len(ac.content))}
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copy(out.content, ac.content[:])
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loc := binarySearch(out.content, x)
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if loc >= 0 {
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s := out.content
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s = append(s[:loc], s[loc+1:]...)
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out.content = s
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}
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return out
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}
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func (ac *arrayContainer) or(a container) container {
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switch x := a.(type) {
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case *arrayContainer:
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return ac.orArray(x)
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case *bitmapContainer:
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return x.orArray(ac)
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case *runContainer16:
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if x.isFull() {
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return x.clone()
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}
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return x.orArray(ac)
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}
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panic("unsupported container type")
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}
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func (ac *arrayContainer) orCardinality(a container) int {
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switch x := a.(type) {
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case *arrayContainer:
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return ac.orArrayCardinality(x)
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case *bitmapContainer:
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return x.orArrayCardinality(ac)
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case *runContainer16:
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return x.orArrayCardinality(ac)
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}
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panic("unsupported container type")
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}
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func (ac *arrayContainer) ior(a container) container {
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switch x := a.(type) {
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case *arrayContainer:
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return ac.iorArray(x)
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case *bitmapContainer:
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return a.(*bitmapContainer).orArray(ac)
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//return ac.iorBitmap(x) // note: this does not make sense
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case *runContainer16:
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if x.isFull() {
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return x.clone()
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}
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return ac.iorRun16(x)
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}
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panic("unsupported container type")
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}
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func (ac *arrayContainer) iorArray(value2 *arrayContainer) container {
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value1 := ac
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len1 := value1.getCardinality()
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len2 := value2.getCardinality()
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maxPossibleCardinality := len1 + len2
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if maxPossibleCardinality > arrayDefaultMaxSize { // it could be a bitmap!
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bc := newBitmapContainer()
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for k := 0; k < len(value2.content); k++ {
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v := value2.content[k]
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i := uint(v) >> 6
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mask := uint64(1) << (v % 64)
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bc.bitmap[i] |= mask
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}
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for k := 0; k < len(ac.content); k++ {
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v := ac.content[k]
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i := uint(v) >> 6
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mask := uint64(1) << (v % 64)
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bc.bitmap[i] |= mask
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}
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bc.cardinality = int(popcntSlice(bc.bitmap))
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if bc.cardinality <= arrayDefaultMaxSize {
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return bc.toArrayContainer()
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}
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return bc
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}
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if maxPossibleCardinality > cap(value1.content) {
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newcontent := make([]uint16, 0, maxPossibleCardinality)
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copy(newcontent[len2:maxPossibleCardinality], ac.content[0:len1])
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ac.content = newcontent
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} else {
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copy(ac.content[len2:maxPossibleCardinality], ac.content[0:len1])
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}
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nl := union2by2(value1.content[len2:maxPossibleCardinality], value2.content, ac.content)
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ac.content = ac.content[:nl] // reslice to match actual used capacity
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return ac
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}
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// Note: such code does not make practical sense, except for lazy evaluations
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func (ac *arrayContainer) iorBitmap(bc2 *bitmapContainer) container {
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bc1 := ac.toBitmapContainer()
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bc1.iorBitmap(bc2)
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*ac = *newArrayContainerFromBitmap(bc1)
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return ac
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}
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func (ac *arrayContainer) iorRun16(rc *runContainer16) container {
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bc1 := ac.toBitmapContainer()
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bc2 := rc.toBitmapContainer()
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bc1.iorBitmap(bc2)
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*ac = *newArrayContainerFromBitmap(bc1)
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return ac
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}
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func (ac *arrayContainer) lazyIOR(a container) container {
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switch x := a.(type) {
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case *arrayContainer:
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return ac.lazyIorArray(x)
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case *bitmapContainer:
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return ac.lazyIorBitmap(x)
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case *runContainer16:
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if x.isFull() {
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return x.clone()
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}
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return ac.lazyIorRun16(x)
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}
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panic("unsupported container type")
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}
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func (ac *arrayContainer) lazyIorArray(ac2 *arrayContainer) container {
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// TODO actually make this lazy
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return ac.iorArray(ac2)
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}
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func (ac *arrayContainer) lazyIorBitmap(bc *bitmapContainer) container {
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// TODO actually make this lazy
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return ac.iorBitmap(bc)
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}
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func (ac *arrayContainer) lazyIorRun16(rc *runContainer16) container {
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// TODO actually make this lazy
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return ac.iorRun16(rc)
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}
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func (ac *arrayContainer) lazyOR(a container) container {
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switch x := a.(type) {
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case *arrayContainer:
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return ac.lazyorArray(x)
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case *bitmapContainer:
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return a.lazyOR(ac)
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case *runContainer16:
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if x.isFull() {
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return x.clone()
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}
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return x.orArray(ac)
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}
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panic("unsupported container type")
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}
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func (ac *arrayContainer) orArray(value2 *arrayContainer) container {
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value1 := ac
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maxPossibleCardinality := value1.getCardinality() + value2.getCardinality()
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if maxPossibleCardinality > arrayDefaultMaxSize { // it could be a bitmap!
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bc := newBitmapContainer()
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for k := 0; k < len(value2.content); k++ {
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v := value2.content[k]
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i := uint(v) >> 6
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mask := uint64(1) << (v % 64)
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bc.bitmap[i] |= mask
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}
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for k := 0; k < len(ac.content); k++ {
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v := ac.content[k]
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i := uint(v) >> 6
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mask := uint64(1) << (v % 64)
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bc.bitmap[i] |= mask
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}
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bc.cardinality = int(popcntSlice(bc.bitmap))
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if bc.cardinality <= arrayDefaultMaxSize {
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return bc.toArrayContainer()
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}
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return bc
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}
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answer := newArrayContainerCapacity(maxPossibleCardinality)
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nl := union2by2(value1.content, value2.content, answer.content)
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answer.content = answer.content[:nl] // reslice to match actual used capacity
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return answer
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}
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func (ac *arrayContainer) orArrayCardinality(value2 *arrayContainer) int {
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return union2by2Cardinality(ac.content, value2.content)
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}
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func (ac *arrayContainer) lazyorArray(value2 *arrayContainer) container {
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value1 := ac
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maxPossibleCardinality := value1.getCardinality() + value2.getCardinality()
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if maxPossibleCardinality > arrayLazyLowerBound { // it could be a bitmap!^M
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bc := newBitmapContainer()
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for k := 0; k < len(value2.content); k++ {
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v := value2.content[k]
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i := uint(v) >> 6
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mask := uint64(1) << (v % 64)
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bc.bitmap[i] |= mask
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}
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for k := 0; k < len(ac.content); k++ {
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v := ac.content[k]
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i := uint(v) >> 6
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mask := uint64(1) << (v % 64)
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bc.bitmap[i] |= mask
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}
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bc.cardinality = invalidCardinality
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return bc
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}
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answer := newArrayContainerCapacity(maxPossibleCardinality)
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nl := union2by2(value1.content, value2.content, answer.content)
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answer.content = answer.content[:nl] // reslice to match actual used capacity
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return answer
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}
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|
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func (ac *arrayContainer) and(a container) container {
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switch x := a.(type) {
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case *arrayContainer:
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return ac.andArray(x)
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case *bitmapContainer:
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return x.and(ac)
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case *runContainer16:
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if x.isFull() {
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return ac.clone()
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}
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return x.andArray(ac)
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}
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panic("unsupported container type")
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}
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func (ac *arrayContainer) andCardinality(a container) int {
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switch x := a.(type) {
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case *arrayContainer:
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return ac.andArrayCardinality(x)
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case *bitmapContainer:
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return x.andCardinality(ac)
|
|
case *runContainer16:
|
|
return x.andArrayCardinality(ac)
|
|
}
|
|
panic("unsupported container type")
|
|
}
|
|
|
|
func (ac *arrayContainer) intersects(a container) bool {
|
|
switch x := a.(type) {
|
|
case *arrayContainer:
|
|
return ac.intersectsArray(x)
|
|
case *bitmapContainer:
|
|
return x.intersects(ac)
|
|
case *runContainer16:
|
|
return x.intersects(ac)
|
|
}
|
|
panic("unsupported container type")
|
|
}
|
|
|
|
func (ac *arrayContainer) iand(a container) container {
|
|
switch x := a.(type) {
|
|
case *arrayContainer:
|
|
return ac.iandArray(x)
|
|
case *bitmapContainer:
|
|
return ac.iandBitmap(x)
|
|
case *runContainer16:
|
|
if x.isFull() {
|
|
return ac
|
|
}
|
|
return x.andArray(ac)
|
|
}
|
|
panic("unsupported container type")
|
|
}
|
|
|
|
func (ac *arrayContainer) iandBitmap(bc *bitmapContainer) container {
|
|
pos := 0
|
|
c := ac.getCardinality()
|
|
for k := 0; k < c; k++ {
|
|
// branchless
|
|
v := ac.content[k]
|
|
ac.content[pos] = v
|
|
pos += int(bc.bitValue(v))
|
|
}
|
|
ac.content = ac.content[:pos]
|
|
return ac
|
|
|
|
}
|
|
|
|
func (ac *arrayContainer) xor(a container) container {
|
|
switch x := a.(type) {
|
|
case *arrayContainer:
|
|
return ac.xorArray(x)
|
|
case *bitmapContainer:
|
|
return a.xor(ac)
|
|
case *runContainer16:
|
|
return x.xorArray(ac)
|
|
}
|
|
panic("unsupported container type")
|
|
}
|
|
|
|
func (ac *arrayContainer) xorArray(value2 *arrayContainer) container {
|
|
value1 := ac
|
|
totalCardinality := value1.getCardinality() + value2.getCardinality()
|
|
if totalCardinality > arrayDefaultMaxSize { // it could be a bitmap!
|
|
bc := newBitmapContainer()
|
|
for k := 0; k < len(value2.content); k++ {
|
|
v := value2.content[k]
|
|
i := uint(v) >> 6
|
|
bc.bitmap[i] ^= (uint64(1) << (v % 64))
|
|
}
|
|
for k := 0; k < len(ac.content); k++ {
|
|
v := ac.content[k]
|
|
i := uint(v) >> 6
|
|
bc.bitmap[i] ^= (uint64(1) << (v % 64))
|
|
}
|
|
bc.computeCardinality()
|
|
if bc.cardinality <= arrayDefaultMaxSize {
|
|
return bc.toArrayContainer()
|
|
}
|
|
return bc
|
|
}
|
|
desiredCapacity := totalCardinality
|
|
answer := newArrayContainerCapacity(desiredCapacity)
|
|
length := exclusiveUnion2by2(value1.content, value2.content, answer.content)
|
|
answer.content = answer.content[:length]
|
|
return answer
|
|
|
|
}
|
|
|
|
func (ac *arrayContainer) andNot(a container) container {
|
|
switch x := a.(type) {
|
|
case *arrayContainer:
|
|
return ac.andNotArray(x)
|
|
case *bitmapContainer:
|
|
return ac.andNotBitmap(x)
|
|
case *runContainer16:
|
|
return ac.andNotRun16(x)
|
|
}
|
|
panic("unsupported container type")
|
|
}
|
|
|
|
func (ac *arrayContainer) andNotRun16(rc *runContainer16) container {
|
|
acb := ac.toBitmapContainer()
|
|
rcb := rc.toBitmapContainer()
|
|
return acb.andNotBitmap(rcb)
|
|
}
|
|
|
|
func (ac *arrayContainer) iandNot(a container) container {
|
|
switch x := a.(type) {
|
|
case *arrayContainer:
|
|
return ac.iandNotArray(x)
|
|
case *bitmapContainer:
|
|
return ac.iandNotBitmap(x)
|
|
case *runContainer16:
|
|
return ac.iandNotRun16(x)
|
|
}
|
|
panic("unsupported container type")
|
|
}
|
|
|
|
func (ac *arrayContainer) iandNotRun16(rc *runContainer16) container {
|
|
rcb := rc.toBitmapContainer()
|
|
acb := ac.toBitmapContainer()
|
|
acb.iandNotBitmapSurely(rcb)
|
|
*ac = *(acb.toArrayContainer())
|
|
return ac
|
|
}
|
|
|
|
func (ac *arrayContainer) andNotArray(value2 *arrayContainer) container {
|
|
value1 := ac
|
|
desiredcapacity := value1.getCardinality()
|
|
answer := newArrayContainerCapacity(desiredcapacity)
|
|
length := difference(value1.content, value2.content, answer.content)
|
|
answer.content = answer.content[:length]
|
|
return answer
|
|
}
|
|
|
|
func (ac *arrayContainer) iandNotArray(value2 *arrayContainer) container {
|
|
length := difference(ac.content, value2.content, ac.content)
|
|
ac.content = ac.content[:length]
|
|
return ac
|
|
}
|
|
|
|
func (ac *arrayContainer) andNotBitmap(value2 *bitmapContainer) container {
|
|
desiredcapacity := ac.getCardinality()
|
|
answer := newArrayContainerCapacity(desiredcapacity)
|
|
answer.content = answer.content[:desiredcapacity]
|
|
pos := 0
|
|
for _, v := range ac.content {
|
|
answer.content[pos] = v
|
|
pos += 1 - int(value2.bitValue(v))
|
|
}
|
|
answer.content = answer.content[:pos]
|
|
return answer
|
|
}
|
|
|
|
func (ac *arrayContainer) andBitmap(value2 *bitmapContainer) container {
|
|
desiredcapacity := ac.getCardinality()
|
|
answer := newArrayContainerCapacity(desiredcapacity)
|
|
answer.content = answer.content[:desiredcapacity]
|
|
pos := 0
|
|
for _, v := range ac.content {
|
|
answer.content[pos] = v
|
|
pos += int(value2.bitValue(v))
|
|
}
|
|
answer.content = answer.content[:pos]
|
|
return answer
|
|
}
|
|
|
|
func (ac *arrayContainer) iandNotBitmap(value2 *bitmapContainer) container {
|
|
pos := 0
|
|
for _, v := range ac.content {
|
|
ac.content[pos] = v
|
|
pos += 1 - int(value2.bitValue(v))
|
|
}
|
|
ac.content = ac.content[:pos]
|
|
return ac
|
|
}
|
|
|
|
func copyOf(array []uint16, size int) []uint16 {
|
|
result := make([]uint16, size)
|
|
for i, x := range array {
|
|
if i == size {
|
|
break
|
|
}
|
|
result[i] = x
|
|
}
|
|
return result
|
|
}
|
|
|
|
// flip the values in the range [firstOfRange,endx)
|
|
func (ac *arrayContainer) inot(firstOfRange, endx int) container {
|
|
if firstOfRange >= endx {
|
|
return ac
|
|
}
|
|
return ac.inotClose(firstOfRange, endx-1) // remove everything in [firstOfRange,endx-1]
|
|
}
|
|
|
|
// flip the values in the range [firstOfRange,lastOfRange]
|
|
func (ac *arrayContainer) inotClose(firstOfRange, lastOfRange int) container {
|
|
if firstOfRange > lastOfRange { // unlike add and remove, not uses an inclusive range [firstOfRange,lastOfRange]
|
|
return ac
|
|
}
|
|
// determine the span of array indices to be affected
|
|
startIndex := binarySearch(ac.content, uint16(firstOfRange))
|
|
if startIndex < 0 {
|
|
startIndex = -startIndex - 1
|
|
}
|
|
lastIndex := binarySearch(ac.content, uint16(lastOfRange))
|
|
if lastIndex < 0 {
|
|
lastIndex = -lastIndex - 1 - 1
|
|
}
|
|
currentValuesInRange := lastIndex - startIndex + 1
|
|
spanToBeFlipped := lastOfRange - firstOfRange + 1
|
|
|
|
newValuesInRange := spanToBeFlipped - currentValuesInRange
|
|
buffer := make([]uint16, newValuesInRange)
|
|
cardinalityChange := newValuesInRange - currentValuesInRange
|
|
newCardinality := len(ac.content) + cardinalityChange
|
|
if cardinalityChange > 0 {
|
|
if newCardinality > len(ac.content) {
|
|
if newCardinality > arrayDefaultMaxSize {
|
|
bcRet := ac.toBitmapContainer()
|
|
bcRet.inot(firstOfRange, lastOfRange+1)
|
|
*ac = *bcRet.toArrayContainer()
|
|
return bcRet
|
|
}
|
|
ac.content = copyOf(ac.content, newCardinality)
|
|
}
|
|
base := lastIndex + 1
|
|
copy(ac.content[lastIndex+1+cardinalityChange:], ac.content[base:base+len(ac.content)-1-lastIndex])
|
|
ac.negateRange(buffer, startIndex, lastIndex, firstOfRange, lastOfRange+1)
|
|
} else { // no expansion needed
|
|
ac.negateRange(buffer, startIndex, lastIndex, firstOfRange, lastOfRange+1)
|
|
if cardinalityChange < 0 {
|
|
|
|
for i := startIndex + newValuesInRange; i < newCardinality; i++ {
|
|
ac.content[i] = ac.content[i-cardinalityChange]
|
|
}
|
|
}
|
|
}
|
|
ac.content = ac.content[:newCardinality]
|
|
return ac
|
|
}
|
|
|
|
func (ac *arrayContainer) negateRange(buffer []uint16, startIndex, lastIndex, startRange, lastRange int) {
|
|
// compute the negation into buffer
|
|
outPos := 0
|
|
inPos := startIndex // value here always >= valInRange,
|
|
// until it is exhausted
|
|
// n.b., we can start initially exhausted.
|
|
|
|
valInRange := startRange
|
|
for ; valInRange < lastRange && inPos <= lastIndex; valInRange++ {
|
|
if uint16(valInRange) != ac.content[inPos] {
|
|
buffer[outPos] = uint16(valInRange)
|
|
outPos++
|
|
} else {
|
|
inPos++
|
|
}
|
|
}
|
|
|
|
// if there are extra items (greater than the biggest
|
|
// pre-existing one in range), buffer them
|
|
for ; valInRange < lastRange; valInRange++ {
|
|
buffer[outPos] = uint16(valInRange)
|
|
outPos++
|
|
}
|
|
|
|
if outPos != len(buffer) {
|
|
panic("negateRange: internal bug")
|
|
}
|
|
|
|
for i, item := range buffer {
|
|
ac.content[i+startIndex] = item
|
|
}
|
|
}
|
|
|
|
func (ac *arrayContainer) isFull() bool {
|
|
return false
|
|
}
|
|
|
|
func (ac *arrayContainer) andArray(value2 *arrayContainer) container {
|
|
desiredcapacity := minOfInt(ac.getCardinality(), value2.getCardinality())
|
|
answer := newArrayContainerCapacity(desiredcapacity)
|
|
length := intersection2by2(
|
|
ac.content,
|
|
value2.content,
|
|
answer.content)
|
|
answer.content = answer.content[:length]
|
|
return answer
|
|
}
|
|
|
|
func (ac *arrayContainer) andArrayCardinality(value2 *arrayContainer) int {
|
|
return intersection2by2Cardinality(
|
|
ac.content,
|
|
value2.content)
|
|
}
|
|
|
|
func (ac *arrayContainer) intersectsArray(value2 *arrayContainer) bool {
|
|
return intersects2by2(
|
|
ac.content,
|
|
value2.content)
|
|
}
|
|
|
|
func (ac *arrayContainer) iandArray(value2 *arrayContainer) container {
|
|
length := intersection2by2(
|
|
ac.content,
|
|
value2.content,
|
|
ac.content)
|
|
ac.content = ac.content[:length]
|
|
return ac
|
|
}
|
|
|
|
func (ac *arrayContainer) getCardinality() int {
|
|
return len(ac.content)
|
|
}
|
|
|
|
func (ac *arrayContainer) rank(x uint16) int {
|
|
answer := binarySearch(ac.content, x)
|
|
if answer >= 0 {
|
|
return answer + 1
|
|
}
|
|
return -answer - 1
|
|
|
|
}
|
|
|
|
func (ac *arrayContainer) selectInt(x uint16) int {
|
|
return int(ac.content[x])
|
|
}
|
|
|
|
func (ac *arrayContainer) clone() container {
|
|
ptr := arrayContainer{make([]uint16, len(ac.content))}
|
|
copy(ptr.content, ac.content[:])
|
|
return &ptr
|
|
}
|
|
|
|
func (ac *arrayContainer) contains(x uint16) bool {
|
|
return binarySearch(ac.content, x) >= 0
|
|
}
|
|
|
|
func (ac *arrayContainer) loadData(bitmapContainer *bitmapContainer) {
|
|
ac.content = make([]uint16, bitmapContainer.cardinality, bitmapContainer.cardinality)
|
|
bitmapContainer.fillArray(ac.content)
|
|
}
|
|
func newArrayContainer() *arrayContainer {
|
|
p := new(arrayContainer)
|
|
return p
|
|
}
|
|
|
|
func newArrayContainerFromBitmap(bc *bitmapContainer) *arrayContainer {
|
|
ac := &arrayContainer{}
|
|
ac.loadData(bc)
|
|
return ac
|
|
}
|
|
|
|
func newArrayContainerCapacity(size int) *arrayContainer {
|
|
p := new(arrayContainer)
|
|
p.content = make([]uint16, 0, size)
|
|
return p
|
|
}
|
|
|
|
func newArrayContainerSize(size int) *arrayContainer {
|
|
p := new(arrayContainer)
|
|
p.content = make([]uint16, size, size)
|
|
return p
|
|
}
|
|
|
|
func newArrayContainerRange(firstOfRun, lastOfRun int) *arrayContainer {
|
|
valuesInRange := lastOfRun - firstOfRun + 1
|
|
this := newArrayContainerCapacity(valuesInRange)
|
|
for i := 0; i < valuesInRange; i++ {
|
|
this.content = append(this.content, uint16(firstOfRun+i))
|
|
}
|
|
return this
|
|
}
|
|
|
|
func (ac *arrayContainer) numberOfRuns() (nr int) {
|
|
n := len(ac.content)
|
|
var runlen uint16
|
|
var cur, prev uint16
|
|
|
|
switch n {
|
|
case 0:
|
|
return 0
|
|
case 1:
|
|
return 1
|
|
default:
|
|
for i := 1; i < n; i++ {
|
|
prev = ac.content[i-1]
|
|
cur = ac.content[i]
|
|
|
|
if cur == prev+1 {
|
|
runlen++
|
|
} else {
|
|
if cur < prev {
|
|
panic("then fundamental arrayContainer assumption of sorted ac.content was broken")
|
|
}
|
|
if cur == prev {
|
|
panic("then fundamental arrayContainer assumption of deduplicated content was broken")
|
|
} else {
|
|
nr++
|
|
runlen = 0
|
|
}
|
|
}
|
|
}
|
|
nr++
|
|
}
|
|
return
|
|
}
|
|
|
|
// convert to run or array *if needed*
|
|
func (ac *arrayContainer) toEfficientContainer() container {
|
|
|
|
numRuns := ac.numberOfRuns()
|
|
|
|
sizeAsRunContainer := runContainer16SerializedSizeInBytes(numRuns)
|
|
sizeAsBitmapContainer := bitmapContainerSizeInBytes()
|
|
card := ac.getCardinality()
|
|
sizeAsArrayContainer := arrayContainerSizeInBytes(card)
|
|
|
|
if sizeAsRunContainer <= minOfInt(sizeAsBitmapContainer, sizeAsArrayContainer) {
|
|
return newRunContainer16FromArray(ac)
|
|
}
|
|
if card <= arrayDefaultMaxSize {
|
|
return ac
|
|
}
|
|
return ac.toBitmapContainer()
|
|
}
|
|
|
|
func (ac *arrayContainer) containerType() contype {
|
|
return arrayContype
|
|
}
|
|
|
|
func (ac *arrayContainer) addOffset(x uint16) []container {
|
|
low := &arrayContainer{}
|
|
high := &arrayContainer{}
|
|
for _, val := range ac.content {
|
|
y := uint32(val) + uint32(x)
|
|
if highbits(y) > 0 {
|
|
high.content = append(high.content, lowbits(y))
|
|
} else {
|
|
low.content = append(low.content, lowbits(y))
|
|
}
|
|
}
|
|
return []container{low, high}
|
|
}
|