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236 lines
4.6 KiB
Go
236 lines
4.6 KiB
Go
package fzf
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import (
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"math"
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"github.com/junegunn/fzf/src/curses"
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)
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// Offset holds two 32-bit integers denoting the offsets of a matched substring
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type Offset [2]int32
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type colorOffset struct {
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offset [2]int32
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color int
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bold bool
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}
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// Item represents each input line
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type Item struct {
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text *string
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origText *string
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transformed *[]Token
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index uint32
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offsets []Offset
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colors []ansiOffset
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rank Rank
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}
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// Rank is used to sort the search result
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type Rank struct {
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matchlen uint16
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tiebreak uint16
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index uint32
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}
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// Tiebreak criterion to use. Never changes once fzf is started.
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var rankTiebreak tiebreak
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// Rank calculates rank of the Item
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func (i *Item) Rank(cache bool) Rank {
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if cache && (i.rank.matchlen > 0 || i.rank.tiebreak > 0) {
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return i.rank
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}
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matchlen := 0
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prevEnd := 0
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minBegin := math.MaxUint16
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for _, offset := range i.offsets {
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begin := int(offset[0])
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end := int(offset[1])
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if prevEnd > begin {
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begin = prevEnd
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}
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if end > prevEnd {
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prevEnd = end
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}
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if end > begin {
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if begin < minBegin {
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minBegin = begin
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}
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matchlen += end - begin
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}
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}
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var tiebreak uint16
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switch rankTiebreak {
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case byLength:
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tiebreak = uint16(len(*i.text))
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case byBegin:
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// We can't just look at i.offsets[0][0] because it can be an inverse term
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tiebreak = uint16(minBegin)
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case byEnd:
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if prevEnd > 0 {
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tiebreak = uint16(1 + len(*i.text) - prevEnd)
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} else {
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// Empty offsets due to inverse terms.
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tiebreak = 1
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}
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case byIndex:
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tiebreak = 1
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}
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rank := Rank{uint16(matchlen), tiebreak, i.index}
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if cache {
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i.rank = rank
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}
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return rank
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}
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// AsString returns the original string
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func (i *Item) AsString() string {
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if i.origText != nil {
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return *i.origText
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}
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return *i.text
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}
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func (item *Item) colorOffsets(color int, bold bool, current bool) []colorOffset {
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if len(item.colors) == 0 {
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var offsets []colorOffset
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for _, off := range item.offsets {
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offsets = append(offsets, colorOffset{offset: off, color: color, bold: bold})
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}
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return offsets
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}
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// Find max column
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var maxCol int32
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for _, off := range item.offsets {
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if off[1] > maxCol {
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maxCol = off[1]
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}
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}
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for _, ansi := range item.colors {
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if ansi.offset[1] > maxCol {
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maxCol = ansi.offset[1]
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}
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}
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cols := make([]int, maxCol)
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for colorIndex, ansi := range item.colors {
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for i := ansi.offset[0]; i < ansi.offset[1]; i++ {
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cols[i] = colorIndex + 1 // XXX
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}
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}
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for _, off := range item.offsets {
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for i := off[0]; i < off[1]; i++ {
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cols[i] = -1
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}
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}
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// sort.Sort(ByOrder(offsets))
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// Merge offsets
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// ------------ ---- -- ----
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// ++++++++ ++++++++++
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// --++++++++-- --++++++++++---
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curr := 0
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start := 0
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var offsets []colorOffset
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add := func(idx int) {
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if curr != 0 && idx > start {
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if curr == -1 {
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offsets = append(offsets, colorOffset{
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offset: Offset{int32(start), int32(idx)}, color: color, bold: bold})
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} else {
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ansi := item.colors[curr-1]
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bg := ansi.color.bg
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if current && bg == -1 {
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bg = int(curses.DarkBG)
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}
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offsets = append(offsets, colorOffset{
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offset: Offset{int32(start), int32(idx)},
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color: curses.PairFor(ansi.color.fg, bg),
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bold: ansi.color.bold || bold})
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}
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}
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}
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for idx, col := range cols {
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if col != curr {
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add(idx)
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start = idx
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curr = col
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}
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}
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add(int(maxCol))
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return offsets
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}
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// ByOrder is for sorting substring offsets
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type ByOrder []Offset
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func (a ByOrder) Len() int {
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return len(a)
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}
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func (a ByOrder) Swap(i, j int) {
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a[i], a[j] = a[j], a[i]
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}
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func (a ByOrder) Less(i, j int) bool {
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ioff := a[i]
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joff := a[j]
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return (ioff[0] < joff[0]) || (ioff[0] == joff[0]) && (ioff[1] <= joff[1])
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}
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// ByRelevance is for sorting Items
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type ByRelevance []*Item
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func (a ByRelevance) Len() int {
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return len(a)
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}
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func (a ByRelevance) Swap(i, j int) {
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a[i], a[j] = a[j], a[i]
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}
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func (a ByRelevance) Less(i, j int) bool {
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irank := a[i].Rank(true)
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jrank := a[j].Rank(true)
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return compareRanks(irank, jrank, false)
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}
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// ByRelevanceTac is for sorting Items
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type ByRelevanceTac []*Item
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func (a ByRelevanceTac) Len() int {
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return len(a)
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}
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func (a ByRelevanceTac) Swap(i, j int) {
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a[i], a[j] = a[j], a[i]
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}
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func (a ByRelevanceTac) Less(i, j int) bool {
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irank := a[i].Rank(true)
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jrank := a[j].Rank(true)
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return compareRanks(irank, jrank, true)
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}
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func compareRanks(irank Rank, jrank Rank, tac bool) bool {
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if irank.matchlen < jrank.matchlen {
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return true
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} else if irank.matchlen > jrank.matchlen {
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return false
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}
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if irank.tiebreak < jrank.tiebreak {
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return true
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} else if irank.tiebreak > jrank.tiebreak {
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return false
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}
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return (irank.index <= jrank.index) != tac
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}
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