mirror of
https://github.com/Llewellynvdm/fzf.git
synced 2024-11-25 06:07:42 +00:00
432 lines
11 KiB
Go
432 lines
11 KiB
Go
package fzf
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import (
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"math/rand"
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"regexp"
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"strings"
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"testing"
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"unicode/utf8"
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"github.com/junegunn/fzf/src/tui"
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)
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// The following regular expression will include not all but most of the
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// frequently used ANSI sequences. This regex is used as a reference for
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// testing nextAnsiEscapeSequence().
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//
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// References:
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// - https://github.com/gnachman/iTerm2
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// - https://web.archive.org/web/20090204053813/http://ascii-table.com/ansi-escape-sequences.php
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// (archived from http://ascii-table.com/ansi-escape-sequences.php)
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// - https://web.archive.org/web/20090227051140/http://ascii-table.com/ansi-escape-sequences-vt-100.php
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// (archived from http://ascii-table.com/ansi-escape-sequences-vt-100.php)
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// - http://tldp.org/HOWTO/Bash-Prompt-HOWTO/x405.html
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// - https://invisible-island.net/xterm/ctlseqs/ctlseqs.html
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var ansiRegexReference = regexp.MustCompile("(?:\x1b[\\[()][0-9;:]*[a-zA-Z@]|\x1b][0-9][;:][[:print:]]+(?:\x1b\\\\|\x07)|\x1b.|[\x0e\x0f]|.\x08)")
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func testParserReference(t testing.TB, str string) {
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t.Helper()
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toSlice := func(start, end int) []int {
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if start == -1 {
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return nil
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}
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return []int{start, end}
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}
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s := str
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for i := 0; ; i++ {
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got := toSlice(nextAnsiEscapeSequence(s))
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exp := ansiRegexReference.FindStringIndex(s)
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equal := len(got) == len(exp)
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if equal {
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for i := 0; i < len(got); i++ {
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if got[i] != exp[i] {
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equal = false
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break
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}
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}
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}
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if !equal {
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var exps, gots []rune
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if len(got) == 2 {
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gots = []rune(s[got[0]:got[1]])
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}
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if len(exp) == 2 {
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exps = []rune(s[exp[0]:exp[1]])
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}
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t.Errorf("%d: %q: got: %v (%q) want: %v (%q)", i, s, got, gots, exp, exps)
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return
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}
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if len(exp) == 0 {
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return
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}
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s = s[exp[1]:]
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}
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}
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func TestNextAnsiEscapeSequence(t *testing.T) {
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testStrs := []string{
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"\x1b[0mhello world",
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"\x1b[1mhello world",
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"椙\x1b[1m椙",
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"椙\x1b[1椙m椙",
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"\x1b[1mhello \x1b[mw\x1b7o\x1b8r\x1b(Bl\x1b[2@d",
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"\x1b[1mhello \x1b[Kworld",
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"hello \x1b[34;45;1mworld",
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"hello \x1b[34;45;1mwor\x1b[34;45;1mld",
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"hello \x1b[34;45;1mwor\x1b[0mld",
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"hello \x1b[34;48;5;233;1mwo\x1b[38;5;161mr\x1b[0ml\x1b[38;5;161md",
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"hello \x1b[38;5;38;48;5;48;1mwor\x1b[38;5;48;48;5;38ml\x1b[0md",
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"hello \x1b[32;1mworld",
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"hello world",
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"hello \x1b[0;38;5;200;48;5;100mworld",
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"\x1b椙",
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"椙\x08",
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"\n\x08",
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"X\x08",
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"",
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"\x1b]4;3;rgb:aa/bb/cc\x07 ",
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"\x1b]4;3;rgb:aa/bb/cc\x1b\\ ",
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ansiBenchmarkString,
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}
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for _, s := range testStrs {
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testParserReference(t, s)
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}
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}
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func TestNextAnsiEscapeSequence_Fuzz_Modified(t *testing.T) {
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t.Parallel()
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if testing.Short() {
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t.Skip("short test")
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}
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testStrs := []string{
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"\x1b[0mhello world",
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"\x1b[1mhello world",
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"椙\x1b[1m椙",
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"椙\x1b[1椙m椙",
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"\x1b[1mhello \x1b[mw\x1b7o\x1b8r\x1b(Bl\x1b[2@d",
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"\x1b[1mhello \x1b[Kworld",
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"hello \x1b[34;45;1mworld",
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"hello \x1b[34;45;1mwor\x1b[34;45;1mld",
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"hello \x1b[34;45;1mwor\x1b[0mld",
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"hello \x1b[34;48;5;233;1mwo\x1b[38;5;161mr\x1b[0ml\x1b[38;5;161md",
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"hello \x1b[38;5;38;48;5;48;1mwor\x1b[38;5;48;48;5;38ml\x1b[0md",
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"hello \x1b[32;1mworld",
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"hello world",
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"hello \x1b[0;38;5;200;48;5;100mworld",
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ansiBenchmarkString,
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}
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replacementBytes := [...]rune{'\x0e', '\x0f', '\x1b', '\x08'}
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modifyString := func(s string, rr *rand.Rand) string {
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n := rr.Intn(len(s))
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b := []rune(s)
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for ; n >= 0 && len(b) != 0; n-- {
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i := rr.Intn(len(b))
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switch x := rr.Intn(4); x {
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case 0:
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b = append(b[:i], b[i+1:]...)
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case 1:
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j := rr.Intn(len(replacementBytes) - 1)
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b[i] = replacementBytes[j]
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case 2:
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x := rune(rr.Intn(utf8.MaxRune))
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for !utf8.ValidRune(x) {
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x = rune(rr.Intn(utf8.MaxRune))
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}
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b[i] = x
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case 3:
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b[i] = rune(rr.Intn(utf8.MaxRune)) // potentially invalid
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default:
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t.Fatalf("unsupported value: %d", x)
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}
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}
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return string(b)
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}
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rr := rand.New(rand.NewSource(1))
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for _, s := range testStrs {
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for i := 1_000; i >= 0; i-- {
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testParserReference(t, modifyString(s, rr))
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}
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}
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}
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func TestNextAnsiEscapeSequence_Fuzz_Random(t *testing.T) {
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t.Parallel()
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if testing.Short() {
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t.Skip("short test")
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}
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randomString := func(rr *rand.Rand) string {
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numChars := rand.Intn(50)
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codePoints := make([]rune, numChars)
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for i := 0; i < len(codePoints); i++ {
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var r rune
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for n := 0; n < 1000; n++ {
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r = rune(rr.Intn(utf8.MaxRune))
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// Allow 10% of runes to be invalid
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if utf8.ValidRune(r) || rr.Float64() < 0.10 {
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break
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}
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}
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codePoints[i] = r
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}
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return string(codePoints)
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}
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rr := rand.New(rand.NewSource(1))
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for i := 0; i < 100_000; i++ {
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testParserReference(t, randomString(rr))
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}
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}
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func TestExtractColor(t *testing.T) {
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assert := func(offset ansiOffset, b int32, e int32, fg tui.Color, bg tui.Color, bold bool) {
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var attr tui.Attr
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if bold {
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attr = tui.Bold
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}
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if offset.offset[0] != b || offset.offset[1] != e ||
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offset.color.fg != fg || offset.color.bg != bg || offset.color.attr != attr {
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t.Error(offset, b, e, fg, bg, attr)
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}
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}
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src := "hello world"
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var state *ansiState
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clean := "\x1b[0m"
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check := func(assertion func(ansiOffsets *[]ansiOffset, state *ansiState)) {
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output, ansiOffsets, newState := extractColor(src, state, nil)
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state = newState
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if output != "hello world" {
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t.Errorf("Invalid output: %s %v", output, []rune(output))
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}
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t.Log(src, ansiOffsets, clean)
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assertion(ansiOffsets, state)
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}
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check(func(offsets *[]ansiOffset, state *ansiState) {
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if offsets != nil {
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t.Fail()
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}
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})
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state = nil
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src = "\x1b[0mhello world"
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check(func(offsets *[]ansiOffset, state *ansiState) {
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if offsets != nil {
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t.Fail()
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}
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})
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state = nil
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src = "\x1b[1mhello world"
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check(func(offsets *[]ansiOffset, state *ansiState) {
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if len(*offsets) != 1 {
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t.Fail()
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}
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assert((*offsets)[0], 0, 11, -1, -1, true)
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})
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state = nil
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src = "\x1b[1mhello \x1b[mw\x1b7o\x1b8r\x1b(Bl\x1b[2@d"
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check(func(offsets *[]ansiOffset, state *ansiState) {
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if len(*offsets) != 1 {
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t.Fail()
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}
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assert((*offsets)[0], 0, 6, -1, -1, true)
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})
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state = nil
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src = "\x1b[1mhello \x1b[Kworld"
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check(func(offsets *[]ansiOffset, state *ansiState) {
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if len(*offsets) != 1 {
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t.Fail()
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}
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assert((*offsets)[0], 0, 11, -1, -1, true)
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})
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state = nil
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src = "hello \x1b[34;45;1mworld"
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check(func(offsets *[]ansiOffset, state *ansiState) {
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if len(*offsets) != 1 {
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t.Fail()
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}
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assert((*offsets)[0], 6, 11, 4, 5, true)
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})
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state = nil
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src = "hello \x1b[34;45;1mwor\x1b[34;45;1mld"
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check(func(offsets *[]ansiOffset, state *ansiState) {
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if len(*offsets) != 1 {
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t.Fail()
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}
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assert((*offsets)[0], 6, 11, 4, 5, true)
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})
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state = nil
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src = "hello \x1b[34;45;1mwor\x1b[0mld"
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check(func(offsets *[]ansiOffset, state *ansiState) {
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if len(*offsets) != 1 {
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t.Fail()
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}
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assert((*offsets)[0], 6, 9, 4, 5, true)
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})
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state = nil
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src = "hello \x1b[34;48;5;233;1mwo\x1b[38;5;161mr\x1b[0ml\x1b[38;5;161md"
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check(func(offsets *[]ansiOffset, state *ansiState) {
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if len(*offsets) != 3 {
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t.Fail()
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}
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assert((*offsets)[0], 6, 8, 4, 233, true)
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assert((*offsets)[1], 8, 9, 161, 233, true)
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assert((*offsets)[2], 10, 11, 161, -1, false)
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})
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// {38,48};5;{38,48}
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state = nil
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src = "hello \x1b[38;5;38;48;5;48;1mwor\x1b[38;5;48;48;5;38ml\x1b[0md"
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check(func(offsets *[]ansiOffset, state *ansiState) {
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if len(*offsets) != 2 {
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t.Fail()
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}
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assert((*offsets)[0], 6, 9, 38, 48, true)
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assert((*offsets)[1], 9, 10, 48, 38, true)
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})
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src = "hello \x1b[32;1mworld"
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check(func(offsets *[]ansiOffset, state *ansiState) {
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if len(*offsets) != 1 {
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t.Fail()
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}
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if state.fg != 2 || state.bg != -1 || state.attr == 0 {
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t.Fail()
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}
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assert((*offsets)[0], 6, 11, 2, -1, true)
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})
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src = "hello world"
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check(func(offsets *[]ansiOffset, state *ansiState) {
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if len(*offsets) != 1 {
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t.Fail()
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}
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if state.fg != 2 || state.bg != -1 || state.attr == 0 {
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t.Fail()
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}
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assert((*offsets)[0], 0, 11, 2, -1, true)
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})
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src = "hello \x1b[0;38;5;200;48;5;100mworld"
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check(func(offsets *[]ansiOffset, state *ansiState) {
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if len(*offsets) != 2 {
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t.Fail()
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}
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if state.fg != 200 || state.bg != 100 || state.attr > 0 {
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t.Fail()
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}
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assert((*offsets)[0], 0, 6, 2, -1, true)
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assert((*offsets)[1], 6, 11, 200, 100, false)
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})
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}
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func TestAnsiCodeStringConversion(t *testing.T) {
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assert := func(code string, prevState *ansiState, expected string) {
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state := interpretCode(code, prevState)
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if expected != state.ToString() {
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t.Errorf("expected: %s, actual: %s",
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strings.ReplaceAll(expected, "\x1b[", "\\x1b["),
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strings.ReplaceAll(state.ToString(), "\x1b[", "\\x1b["))
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}
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}
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assert("\x1b[m", nil, "")
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assert("\x1b[m", &ansiState{attr: tui.Blink, lbg: -1}, "")
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assert("\x1b[0m", &ansiState{fg: 4, bg: 4, lbg: -1}, "")
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assert("\x1b[;m", &ansiState{fg: 4, bg: 4, lbg: -1}, "")
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assert("\x1b[;;m", &ansiState{fg: 4, bg: 4, lbg: -1}, "")
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assert("\x1b[31m", nil, "\x1b[31;49m")
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assert("\x1b[41m", nil, "\x1b[39;41m")
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assert("\x1b[92m", nil, "\x1b[92;49m")
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assert("\x1b[102m", nil, "\x1b[39;102m")
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assert("\x1b[31m", &ansiState{fg: 4, bg: 4, lbg: -1}, "\x1b[31;44m")
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assert("\x1b[1;2;31m", &ansiState{fg: 2, bg: -1, attr: tui.Reverse, lbg: -1}, "\x1b[1;2;7;31;49m")
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assert("\x1b[38;5;100;48;5;200m", nil, "\x1b[38;5;100;48;5;200m")
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assert("\x1b[38:5:100:48:5:200m", nil, "\x1b[38;5;100;48;5;200m")
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assert("\x1b[48;5;100;38;5;200m", nil, "\x1b[38;5;200;48;5;100m")
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assert("\x1b[48;5;100;38;2;10;20;30;1m", nil, "\x1b[1;38;2;10;20;30;48;5;100m")
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assert("\x1b[48;5;100;38;2;10;20;30;7m",
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&ansiState{attr: tui.Dim | tui.Italic, fg: 1, bg: 1},
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"\x1b[2;3;7;38;2;10;20;30;48;5;100m")
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}
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func TestParseAnsiCode(t *testing.T) {
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tests := []struct {
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In, Exp string
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N int
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}{
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{"123", "", 123},
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{"1a", "", -1},
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{"1a;12", "12", -1},
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{"12;a", "a", 12},
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{"-2", "", -1},
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}
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for _, x := range tests {
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n, _, s := parseAnsiCode(x.In, 0)
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if n != x.N || s != x.Exp {
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t.Fatalf("%q: got: (%d %q) want: (%d %q)", x.In, n, s, x.N, x.Exp)
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}
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}
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}
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// kernel/bpf/preload/iterators/README
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const ansiBenchmarkString = "\x1b[38;5;81m\x1b[01;31m\x1b[Kkernel/\x1b[0m\x1b[38:5:81mbpf/" +
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"\x1b[0m\x1b[38:5:81mpreload/\x1b[0m\x1b[38;5;81miterators/" +
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"\x1b[0m\x1b[38:5:149mMakefile\x1b[m\x1b[K\x1b[0m"
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func BenchmarkNextAnsiEscapeSequence(b *testing.B) {
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b.SetBytes(int64(len(ansiBenchmarkString)))
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for i := 0; i < b.N; i++ {
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s := ansiBenchmarkString
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for {
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_, o := nextAnsiEscapeSequence(s)
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if o == -1 {
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break
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}
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s = s[o:]
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}
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}
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}
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// Baseline test to compare the speed of nextAnsiEscapeSequence() to the
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// previously used regex based implementation.
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func BenchmarkNextAnsiEscapeSequence_Regex(b *testing.B) {
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b.SetBytes(int64(len(ansiBenchmarkString)))
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for i := 0; i < b.N; i++ {
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s := ansiBenchmarkString
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for {
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a := ansiRegexReference.FindStringIndex(s)
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if len(a) == 0 {
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break
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}
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s = s[a[1]:]
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}
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}
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}
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func BenchmarkExtractColor(b *testing.B) {
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b.SetBytes(int64(len(ansiBenchmarkString)))
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for i := 0; i < b.N; i++ {
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extractColor(ansiBenchmarkString, nil, nil)
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}
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}
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