fzf/src/result.go
Junegunn Choi 2e3dc75425
Fix inconsistent tiebreak scores when --nth is used
Make sure to consistently calculate tiebreak scores based on the
original line.

This change may not be preferable if you filter aligned tabular input on
a subset of columns using --nth. However, if we calculate length
tiebreak only on the matched components instead of the entire line, the
result can be very confusing when multiple --nth components are
specified, so let's keep it simple and consistent.

Close #926
2017-06-02 13:25:35 +09:00

245 lines
5.1 KiB
Go

package fzf
import (
"math"
"sort"
"unicode"
"github.com/junegunn/fzf/src/tui"
"github.com/junegunn/fzf/src/util"
)
// Offset holds two 32-bit integers denoting the offsets of a matched substring
type Offset [2]int32
type colorOffset struct {
offset [2]int32
color tui.ColorPair
attr tui.Attr
index int32
}
type rank struct {
points [4]uint16
index int32
}
type Result struct {
item *Item
rank rank
}
func buildResult(item *Item, offsets []Offset, score int) *Result {
if len(offsets) > 1 {
sort.Sort(ByOrder(offsets))
}
result := Result{item: item, rank: rank{index: item.index}}
numChars := item.text.Length()
minBegin := math.MaxUint16
minEnd := math.MaxUint16
maxEnd := 0
validOffsetFound := false
for _, offset := range offsets {
b, e := int(offset[0]), int(offset[1])
if b < e {
minBegin = util.Min(b, minBegin)
minEnd = util.Min(e, minEnd)
maxEnd = util.Max(e, maxEnd)
validOffsetFound = true
}
}
for idx, criterion := range sortCriteria {
val := uint16(math.MaxUint16)
switch criterion {
case byScore:
// Higher is better
val = math.MaxUint16 - util.AsUint16(score)
case byLength:
val = util.AsUint16(int(item.TrimLength()))
case byBegin, byEnd:
if validOffsetFound {
whitePrefixLen := 0
for idx := 0; idx < numChars; idx++ {
r := item.text.Get(idx)
whitePrefixLen = idx
if idx == minBegin || !unicode.IsSpace(r) {
break
}
}
if criterion == byBegin {
val = util.AsUint16(minEnd - whitePrefixLen)
} else {
val = util.AsUint16(math.MaxUint16 - math.MaxUint16*(maxEnd-whitePrefixLen)/int(item.TrimLength()))
}
}
}
result.rank.points[idx] = val
}
return &result
}
// Sort criteria to use. Never changes once fzf is started.
var sortCriteria []criterion
// Index returns ordinal index of the Item
func (result *Result) Index() int32 {
return result.item.index
}
func minRank() rank {
return rank{index: 0, points: [4]uint16{math.MaxUint16, 0, 0, 0}}
}
func (result *Result) colorOffsets(matchOffsets []Offset, theme *tui.ColorTheme, color tui.ColorPair, attr tui.Attr, current bool) []colorOffset {
itemColors := result.item.Colors()
// No ANSI code, or --color=no
if len(itemColors) == 0 {
var offsets []colorOffset
for _, off := range matchOffsets {
offsets = append(offsets, colorOffset{offset: [2]int32{off[0], off[1]}, color: color, attr: attr})
}
return offsets
}
// Find max column
var maxCol int32
for _, off := range matchOffsets {
if off[1] > maxCol {
maxCol = off[1]
}
}
for _, ansi := range itemColors {
if ansi.offset[1] > maxCol {
maxCol = ansi.offset[1]
}
}
cols := make([]int, maxCol)
for colorIndex, ansi := range itemColors {
for i := ansi.offset[0]; i < ansi.offset[1]; i++ {
cols[i] = colorIndex + 1 // XXX
}
}
for _, off := range matchOffsets {
for i := off[0]; i < off[1]; i++ {
cols[i] = -1
}
}
// sort.Sort(ByOrder(offsets))
// Merge offsets
// ------------ ---- -- ----
// ++++++++ ++++++++++
// --++++++++-- --++++++++++---
curr := 0
start := 0
var colors []colorOffset
add := func(idx int) {
if curr != 0 && idx > start {
if curr == -1 {
colors = append(colors, colorOffset{
offset: [2]int32{int32(start), int32(idx)}, color: color, attr: attr})
} else {
ansi := itemColors[curr-1]
fg := ansi.color.fg
bg := ansi.color.bg
if theme != nil {
if fg == -1 {
if current {
fg = theme.Current
} else {
fg = theme.Fg
}
}
if bg == -1 {
if current {
bg = theme.DarkBg
} else {
bg = theme.Bg
}
}
}
colors = append(colors, colorOffset{
offset: [2]int32{int32(start), int32(idx)},
color: tui.NewColorPair(fg, bg),
attr: ansi.color.attr.Merge(attr)})
}
}
}
for idx, col := range cols {
if col != curr {
add(idx)
start = idx
curr = col
}
}
add(int(maxCol))
return colors
}
// ByOrder is for sorting substring offsets
type ByOrder []Offset
func (a ByOrder) Len() int {
return len(a)
}
func (a ByOrder) Swap(i, j int) {
a[i], a[j] = a[j], a[i]
}
func (a ByOrder) Less(i, j int) bool {
ioff := a[i]
joff := a[j]
return (ioff[0] < joff[0]) || (ioff[0] == joff[0]) && (ioff[1] <= joff[1])
}
// ByRelevance is for sorting Items
type ByRelevance []*Result
func (a ByRelevance) Len() int {
return len(a)
}
func (a ByRelevance) Swap(i, j int) {
a[i], a[j] = a[j], a[i]
}
func (a ByRelevance) Less(i, j int) bool {
return compareRanks((*a[i]).rank, (*a[j]).rank, false)
}
// ByRelevanceTac is for sorting Items
type ByRelevanceTac []*Result
func (a ByRelevanceTac) Len() int {
return len(a)
}
func (a ByRelevanceTac) Swap(i, j int) {
a[i], a[j] = a[j], a[i]
}
func (a ByRelevanceTac) Less(i, j int) bool {
return compareRanks((*a[i]).rank, (*a[j]).rank, true)
}
func compareRanks(irank rank, jrank rank, tac bool) bool {
for idx := 0; idx < 4; idx++ {
left := irank.points[idx]
right := jrank.points[idx]
if left < right {
return true
} else if left > right {
return false
}
}
return (irank.index <= jrank.index) != tac
}