fzf/src/core.go

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/*
Package fzf implements fzf, a command-line fuzzy finder.
The MIT License (MIT)
Copyright (c) 2015 Junegunn Choi
Permission is hereby granted, free of charge, to any person obtaining a copy
of this software and associated documentation files (the "Software"), to deal
in the Software without restriction, including without limitation the rights
to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
copies of the Software, and to permit persons to whom the Software is
furnished to do so, subject to the following conditions:
The above copyright notice and this permission notice shall be included in
all copies or substantial portions of the Software.
THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
THE SOFTWARE.
*/
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package fzf
import (
"fmt"
"os"
"runtime"
"time"
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"github.com/junegunn/fzf/src/util"
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)
func initProcs() {
runtime.GOMAXPROCS(runtime.NumCPU())
}
/*
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Reader -> EvtReadFin
Reader -> EvtReadNew -> Matcher (restart)
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Terminal -> EvtSearchNew:bool -> Matcher (restart)
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Matcher -> EvtSearchProgress -> Terminal (update info)
Matcher -> EvtSearchFin -> Terminal (update list)
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*/
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// Run starts fzf
func Run(opts *Options) {
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initProcs()
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sort := opts.Sort > 0
rankTiebreak = opts.Tiebreak
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if opts.Version {
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fmt.Println(Version)
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os.Exit(0)
}
// Event channel
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eventBox := util.NewEventBox()
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// ANSI code processor
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ansiProcessor := func(data *string) (*string, []ansiOffset) {
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// By default, we do nothing
return data, nil
}
if opts.Ansi {
if opts.Theme != nil {
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ansiProcessor = func(data *string) (*string, []ansiOffset) {
return extractColor(data)
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}
} else {
// When color is disabled but ansi option is given,
// we simply strip out ANSI codes from the input
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ansiProcessor = func(data *string) (*string, []ansiOffset) {
trimmed, _ := extractColor(data)
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return trimmed, nil
}
}
}
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// Chunk list
var chunkList *ChunkList
if len(opts.WithNth) == 0 {
chunkList = NewChunkList(func(data *string, index int) *Item {
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data, colors := ansiProcessor(data)
return &Item{
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text: data,
index: uint32(index),
colors: colors,
rank: Rank{0, 0, uint32(index)}}
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})
} else {
chunkList = NewChunkList(func(data *string, index int) *Item {
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tokens := Tokenize(data, opts.Delimiter)
trans := Transform(tokens, opts.WithNth)
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item := Item{
text: joinTokens(trans),
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origText: data,
index: uint32(index),
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colors: nil,
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rank: Rank{0, 0, uint32(index)}}
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trimmed, colors := ansiProcessor(item.text)
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item.text = trimmed
item.colors = colors
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return &item
})
}
// Reader
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streamingFilter := opts.Filter != nil && !sort && !opts.Tac && !opts.Sync
if !streamingFilter {
reader := Reader{func(str string) { chunkList.Push(str) }, eventBox, opts.ReadZero}
go reader.ReadSource()
}
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// Matcher
patternBuilder := func(runes []rune) *Pattern {
return BuildPattern(
opts.Mode, opts.Case, opts.Nth, opts.Delimiter, runes)
}
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matcher := NewMatcher(patternBuilder, sort, opts.Tac, eventBox)
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// Filtering mode
if opts.Filter != nil {
if opts.PrintQuery {
fmt.Println(*opts.Filter)
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}
pattern := patternBuilder([]rune(*opts.Filter))
if streamingFilter {
reader := Reader{
func(str string) {
item := chunkList.trans(&str, 0)
if pattern.MatchItem(item) {
fmt.Println(*item.text)
}
}, eventBox, opts.ReadZero}
reader.ReadSource()
} else {
eventBox.Unwatch(EvtReadNew)
eventBox.WaitFor(EvtReadFin)
snapshot, _ := chunkList.Snapshot()
merger, _ := matcher.scan(MatchRequest{
chunks: snapshot,
pattern: pattern})
for i := 0; i < merger.Length(); i++ {
fmt.Println(merger.Get(i).AsString())
}
}
os.Exit(0)
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}
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// Synchronous search
if opts.Sync {
eventBox.Unwatch(EvtReadNew)
eventBox.WaitFor(EvtReadFin)
}
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// Go interactive
go matcher.Loop()
// Terminal I/O
terminal := NewTerminal(opts, eventBox)
deferred := opts.Select1 || opts.Exit0
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go terminal.Loop()
if !deferred {
terminal.startChan <- true
}
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// Event coordination
reading := true
ticks := 0
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eventBox.Watch(EvtReadNew)
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for {
delay := true
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ticks++
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eventBox.Wait(func(events *util.Events) {
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defer events.Clear()
for evt, value := range *events {
switch evt {
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case EvtReadNew, EvtReadFin:
reading = reading && evt == EvtReadNew
snapshot, count := chunkList.Snapshot()
terminal.UpdateCount(count, !reading)
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matcher.Reset(snapshot, terminal.Input(), false, !reading, sort)
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case EvtSearchNew:
switch val := value.(type) {
case bool:
sort = val
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}
snapshot, _ := chunkList.Snapshot()
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matcher.Reset(snapshot, terminal.Input(), true, !reading, sort)
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delay = false
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case EvtSearchProgress:
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switch val := value.(type) {
case float32:
terminal.UpdateProgress(val)
}
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case EvtSearchFin:
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switch val := value.(type) {
case *Merger:
if deferred {
count := val.Length()
if opts.Select1 && count > 1 || opts.Exit0 && !opts.Select1 && count > 0 {
deferred = false
terminal.startChan <- true
} else if val.final {
if opts.Exit0 && count == 0 || opts.Select1 && count == 1 {
if opts.PrintQuery {
fmt.Println(opts.Query)
}
if len(opts.Expect) > 0 {
fmt.Println()
}
for i := 0; i < count; i++ {
fmt.Println(val.Get(i).AsString())
}
os.Exit(0)
}
deferred = false
terminal.startChan <- true
}
}
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terminal.UpdateList(val)
}
}
}
})
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if delay && reading {
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dur := util.DurWithin(
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time.Duration(ticks)*coordinatorDelayStep,
0, coordinatorDelayMax)
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time.Sleep(dur)
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}
}
}