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console.go
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/
console.go
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package main
import (
"encoding/json"
"fmt"
str "github.com/boyter/go-string"
"github.com/mattn/go-isatty"
"os"
"runtime"
"strings"
"github.com/fatih/color"
)
func NewConsoleSearch() {
files := FindFiles(strings.Join(SearchString, " "))
toProcessQueue := make(chan *FileJob, runtime.NumCPU()) // Files to be read into memory for processing
summaryQueue := make(chan *FileJob, runtime.NumCPU()) // Files that match and need to be displayed
// parse the query here to get the fuzzy stuff
query, fuzzy := PreParseQuery(SearchString)
fileReaderWorker := NewFileReaderWorker(files, toProcessQueue)
fileReaderWorker.FuzzyMatch = fuzzy
fileSearcher := NewSearcherWorker(toProcessQueue, summaryQueue)
fileSearcher.SearchString = query
resultSummarizer := NewResultSummarizer(summaryQueue)
resultSummarizer.FileReaderWorker = fileReaderWorker
resultSummarizer.SnippetCount = SnippetCount
go fileReaderWorker.Start()
go fileSearcher.Start()
resultSummarizer.Start()
}
type ResultSummarizer struct {
input chan *FileJob
ResultLimit int64
FileReaderWorker *FileReaderWorker
SnippetCount int64
NoColor bool
Format string
FileOutput string
}
func NewResultSummarizer(input chan *FileJob) ResultSummarizer {
return ResultSummarizer{
input: input,
ResultLimit: -1,
SnippetCount: 1,
NoColor: os.Getenv("TERM") == "dumb" || (!isatty.IsTerminal(os.Stdout.Fd()) && !isatty.IsCygwinTerminal(os.Stdout.Fd())),
Format: Format,
FileOutput: FileOutput,
}
}
func (f *ResultSummarizer) Start() {
// First step is to collect results so we can rank them
results := []*FileJob{}
for res := range f.input {
results = append(results, res)
}
// Consider moving this check into processor to save on CPU burn there at some point in
// the future
if f.ResultLimit != -1 {
if int64(len(results)) > f.ResultLimit {
results = results[:f.ResultLimit]
}
}
rankResults(int(f.FileReaderWorker.GetFileCount()), results)
switch f.Format {
case "json":
f.formatJson(results)
case "vimgrep":
f.formatVimGrep(results)
default:
f.formatDefault(results)
}
}
func (f *ResultSummarizer) formatVimGrep(results []*FileJob) {
var vimGrepOutput []string
SnippetLength = 50 // vim quickfix puts each hit on its own line.
documentFrequency := calculateDocumentTermFrequency(results)
// Cycle through files with matches and process each snippets inside it.
for _, res := range results {
snippets := extractRelevantV3(res, documentFrequency, int(SnippetLength))
if int64(len(snippets)) > f.SnippetCount {
snippets = snippets[:f.SnippetCount]
}
for _, snip := range snippets {
hint := strings.ReplaceAll(snip.Content, "\n", "\\n")
line := fmt.Sprintf("%v:%v:%v:%v", res.Location, snip.LineStart, snip.StartPos, hint)
vimGrepOutput = append(vimGrepOutput, line)
}
}
printable := strings.Join(vimGrepOutput, "\n")
fmt.Println(printable)
}
func (f *ResultSummarizer) formatJson(results []*FileJob) {
var jsonResults []jsonResult
documentFrequency := calculateDocumentTermFrequency(results)
for _, res := range results {
v3 := extractRelevantV3(res, documentFrequency, int(SnippetLength))[0]
// We have the snippet so now we need to highlight it
// we get all the locations that fall in the snippet length
// and then remove the length of the snippet cut which
// makes out location line up with the snippet size
var l [][]int
for _, value := range res.MatchLocations {
for _, s := range value {
if s[0] >= v3.StartPos && s[1] <= v3.EndPos {
s[0] = s[0] - v3.StartPos
s[1] = s[1] - v3.StartPos
l = append(l, s)
}
}
}
jsonResults = append(jsonResults, jsonResult{
Filename: res.Filename,
Location: res.Location,
Content: v3.Content,
Score: res.Score,
MatchLocations: l,
})
}
jsonString, _ := json.Marshal(jsonResults)
if f.FileOutput == "" {
fmt.Println(string(jsonString))
} else {
_ = os.WriteFile(FileOutput, jsonString, 0600)
fmt.Println("results written to " + FileOutput)
}
}
func (f *ResultSummarizer) formatDefault(results []*FileJob) {
fmtBegin := "\033[1;31m"
fmtEnd := "\033[0m"
if f.NoColor {
fmtBegin = ""
fmtEnd = ""
}
documentFrequency := calculateDocumentTermFrequency(results)
for _, res := range results {
snippets := extractRelevantV3(res, documentFrequency, int(SnippetLength))
if int64(len(snippets)) > f.SnippetCount {
snippets = snippets[:f.SnippetCount]
}
lines := ""
for i := 0; i < len(snippets); i++ {
lines += fmt.Sprintf("%d-%d ", snippets[i].LineStart, snippets[i].LineEnd)
}
color.Magenta(fmt.Sprintf("%s Lines %s(%.3f)", res.Location, lines, res.Score))
for i := 0; i < len(snippets); i++ {
// We have the snippet so now we need to highlight it
// we get all the locations that fall in the snippet length
// and then remove the length of the snippet cut which
// makes out location line up with the snippet size
var l [][]int
for _, value := range res.MatchLocations {
for _, s := range value {
if s[0] >= snippets[i].StartPos && s[1] <= snippets[i].EndPos {
s[0] = s[0] - snippets[i].StartPos
s[1] = s[1] - snippets[i].StartPos
l = append(l, s)
}
}
}
displayContent := snippets[i].Content
// If the start and end pos are 0 then we don't need to highlight because there is
// nothing to do so, which means its likely to be a filename match with no content
if !(snippets[i].StartPos == 0 && snippets[i].EndPos == 0) {
displayContent = str.HighlightString(snippets[i].Content, l, fmtBegin, fmtEnd)
}
fmt.Println(displayContent)
if i == len(snippets)-1 {
fmt.Println("")
} else {
fmt.Println("")
fmt.Println("\u001B[1;37m……………snip……………\u001B[0m")
fmt.Println("")
}
}
}
}
type jsonResult struct {
Filename string `json:"filename"`
Location string `json:"location"`
Content string `json:"content"`
Score float64 `json:"score"`
MatchLocations [][]int `json:"matchlocations"`
}