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https://github.com/Llewellynvdm/fzf.git
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f0bfeba733
Favors the line with shorter matched chunk. A chunk is a set of consecutive non-whitespace characters. Unlike the default `length`, this new scheme works well with tabular input. # length prefers item #1, because the whole line is shorter, # chunk prefers item #2, because the matched chunk ("foo") is shorter fzf --height=6 --header-lines=2 --tiebreak=chunk --reverse --query=fo << "EOF" N | Field1 | Field2 | Field3 - | ------ | ------ | ------ 1 | hello | foobar | baz 2 | world | foo | bazbaz EOF If the input does not contain any spaces, `chunk` is equivalent to `length`. But we're not going to set it as the default because it is computationally more expensive. Close #2285 Close #2537 - Not the exact solution to --tiebreak=length not taking --nth into account, but this should work. And the added benefit is that it works well even when --nth is not provided. - Adding a bonus point to the last character of a word didn't turn out great. The order of the result suddenly changes when you type in the last character in the word producing a jarring effect.
175 lines
5.9 KiB
Go
175 lines
5.9 KiB
Go
package fzf
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import (
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"math"
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"sort"
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"testing"
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"github.com/junegunn/fzf/src/tui"
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"github.com/junegunn/fzf/src/util"
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)
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func withIndex(i *Item, index int) *Item {
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(*i).text.Index = int32(index)
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return i
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}
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func TestOffsetSort(t *testing.T) {
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offsets := []Offset{
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{3, 5}, {2, 7},
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{1, 3}, {2, 9}}
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sort.Sort(ByOrder(offsets))
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if offsets[0][0] != 1 || offsets[0][1] != 3 ||
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offsets[1][0] != 2 || offsets[1][1] != 7 ||
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offsets[2][0] != 2 || offsets[2][1] != 9 ||
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offsets[3][0] != 3 || offsets[3][1] != 5 {
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t.Error("Invalid order:", offsets)
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}
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}
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func TestRankComparison(t *testing.T) {
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rank := func(vals ...uint16) Result {
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return Result{
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points: [4]uint16{vals[0], vals[1], vals[2], vals[3]},
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item: &Item{text: util.Chars{Index: int32(vals[4])}}}
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}
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if compareRanks(rank(3, 0, 0, 0, 5), rank(2, 0, 0, 0, 7), false) ||
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!compareRanks(rank(3, 0, 0, 0, 5), rank(3, 0, 0, 0, 6), false) ||
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!compareRanks(rank(1, 2, 0, 0, 3), rank(1, 3, 0, 0, 2), false) ||
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!compareRanks(rank(0, 0, 0, 0, 0), rank(0, 0, 0, 0, 0), false) {
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t.Error("Invalid order")
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}
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if compareRanks(rank(3, 0, 0, 0, 5), rank(2, 0, 0, 0, 7), true) ||
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!compareRanks(rank(3, 0, 0, 0, 5), rank(3, 0, 0, 0, 6), false) ||
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!compareRanks(rank(1, 2, 0, 0, 3), rank(1, 3, 0, 0, 2), true) ||
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!compareRanks(rank(0, 0, 0, 0, 0), rank(0, 0, 0, 0, 0), false) {
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t.Error("Invalid order (tac)")
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}
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}
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// Match length, string length, index
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func TestResultRank(t *testing.T) {
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// FIXME global
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sortCriteria = []criterion{byScore, byLength}
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str := []rune("foo")
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item1 := buildResult(
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withIndex(&Item{text: util.RunesToChars(str)}, 1), []Offset{}, 2)
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if item1.points[3] != math.MaxUint16-2 || // Bonus
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item1.points[2] != 3 || // Length
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item1.points[1] != 0 || // Unused
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item1.points[0] != 0 || // Unused
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item1.item.Index() != 1 {
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t.Error(item1)
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}
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// Only differ in index
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item2 := buildResult(&Item{text: util.RunesToChars(str)}, []Offset{}, 2)
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items := []Result{item1, item2}
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sort.Sort(ByRelevance(items))
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if items[0] != item2 || items[1] != item1 {
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t.Error(items)
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}
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items = []Result{item2, item1, item1, item2}
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sort.Sort(ByRelevance(items))
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if items[0] != item2 || items[1] != item2 ||
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items[2] != item1 || items[3] != item1 {
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t.Error(items, item1, item1.item.Index(), item2, item2.item.Index())
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}
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// Sort by relevance
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item3 := buildResult(
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withIndex(&Item{}, 2), []Offset{{1, 3}, {5, 7}}, 3)
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item4 := buildResult(
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withIndex(&Item{}, 2), []Offset{{1, 2}, {6, 7}}, 4)
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item5 := buildResult(
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withIndex(&Item{}, 2), []Offset{{1, 3}, {5, 7}}, 5)
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item6 := buildResult(
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withIndex(&Item{}, 2), []Offset{{1, 2}, {6, 7}}, 6)
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items = []Result{item1, item2, item3, item4, item5, item6}
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sort.Sort(ByRelevance(items))
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if !(items[0] == item6 && items[1] == item5 &&
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items[2] == item4 && items[3] == item3 &&
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items[4] == item2 && items[5] == item1) {
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t.Error(items, item1, item2, item3, item4, item5, item6)
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}
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}
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func TestChunkTiebreak(t *testing.T) {
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// FIXME global
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sortCriteria = []criterion{byScore, byChunk}
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score := 100
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test := func(input string, offset Offset, chunk string) {
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item := buildResult(withIndex(&Item{text: util.RunesToChars([]rune(input))}, 1), []Offset{offset}, score)
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if !(item.points[3] == math.MaxUint16-uint16(score) && item.points[2] == uint16(len(chunk))) {
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t.Error(item.points)
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}
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}
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test("hello foobar goodbye", Offset{8, 9}, "foobar")
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test("hello foobar goodbye", Offset{7, 18}, "foobar goodbye")
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test("hello foobar goodbye", Offset{0, 1}, "hello")
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test("hello foobar goodbye", Offset{5, 7}, "hello foobar") // TBD
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}
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func TestColorOffset(t *testing.T) {
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// ------------ 20 ---- -- ----
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// ++++++++ ++++++++++
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// --++++++++-- --++++++++++---
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offsets := []Offset{{5, 15}, {25, 35}}
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item := Result{
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item: &Item{
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colors: &[]ansiOffset{
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{[2]int32{0, 20}, ansiState{1, 5, 0, -1}},
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{[2]int32{22, 27}, ansiState{2, 6, tui.Bold, -1}},
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{[2]int32{30, 32}, ansiState{3, 7, 0, -1}},
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{[2]int32{33, 40}, ansiState{4, 8, tui.Bold, -1}}}}}
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colBase := tui.NewColorPair(89, 189, tui.AttrUndefined)
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colMatch := tui.NewColorPair(99, 199, tui.AttrUndefined)
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colors := item.colorOffsets(offsets, tui.Dark256, colBase, colMatch, true)
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assert := func(idx int, b int32, e int32, c tui.ColorPair) {
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o := colors[idx]
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if o.offset[0] != b || o.offset[1] != e || o.color != c {
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t.Error(o, b, e, c)
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}
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}
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// [{[0 5] {1 5 0}} {[5 15] {99 199 0}} {[15 20] {1 5 0}}
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// {[22 25] {2 6 1}} {[25 27] {99 199 1}} {[27 30] {99 199 0}}
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// {[30 32] {99 199 0}} {[32 33] {99 199 0}} {[33 35] {99 199 1}}
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// {[35 40] {4 8 1}}]
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assert(0, 0, 5, tui.NewColorPair(1, 5, tui.AttrUndefined))
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assert(1, 5, 15, colMatch)
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assert(2, 15, 20, tui.NewColorPair(1, 5, tui.AttrUndefined))
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assert(3, 22, 25, tui.NewColorPair(2, 6, tui.Bold))
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assert(4, 25, 27, colMatch.WithAttr(tui.Bold))
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assert(5, 27, 30, colMatch)
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assert(6, 30, 32, colMatch)
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assert(7, 32, 33, colMatch) // TODO: Should we merge consecutive blocks?
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assert(8, 33, 35, colMatch.WithAttr(tui.Bold))
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assert(9, 35, 40, tui.NewColorPair(4, 8, tui.Bold))
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colRegular := tui.NewColorPair(-1, -1, tui.AttrUndefined)
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colUnderline := tui.NewColorPair(-1, -1, tui.Underline)
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colors = item.colorOffsets(offsets, tui.Dark256, colRegular, colUnderline, true)
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// [{[0 5] {1 5 0}} {[5 15] {1 5 8}} {[15 20] {1 5 0}}
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// {[22 25] {2 6 1}} {[25 27] {2 6 9}} {[27 30] {-1 -1 8}}
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// {[30 32] {3 7 8}} {[32 33] {-1 -1 8}} {[33 35] {4 8 9}}
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// {[35 40] {4 8 1}}]
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assert(0, 0, 5, tui.NewColorPair(1, 5, tui.AttrUndefined))
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assert(1, 5, 15, tui.NewColorPair(1, 5, tui.Underline))
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assert(2, 15, 20, tui.NewColorPair(1, 5, tui.AttrUndefined))
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assert(3, 22, 25, tui.NewColorPair(2, 6, tui.Bold))
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assert(4, 25, 27, tui.NewColorPair(2, 6, tui.Bold|tui.Underline))
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assert(5, 27, 30, colUnderline)
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assert(6, 30, 32, tui.NewColorPair(3, 7, tui.Underline))
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assert(7, 32, 33, colUnderline)
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assert(8, 33, 35, tui.NewColorPair(4, 8, tui.Bold|tui.Underline))
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assert(9, 35, 40, tui.NewColorPair(4, 8, tui.Bold))
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}
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