package utils import ( "encoding/json" "fmt" "log" "os" "path/filepath" "regexp" "strings" "time" "github.com/fatih/color" ) // SplitLines takes a multiline string and splits it on newlines // currently we are also stripping \r's which may have adverse effects for // windows users (but no issues have been raised yet) func SplitLines(multilineString string) []string { multilineString = strings.Replace(multilineString, "\r", "", -1) if multilineString == "" || multilineString == "\n" { return make([]string, 0) } lines := strings.Split(multilineString, "\n") if lines[len(lines)-1] == "" { return lines[:len(lines)-1] } return lines } // WithPadding pads a string as much as you want func WithPadding(str string, padding int) string { uncoloredStr := Decolorise(str) if padding < len(uncoloredStr) { return str } return str + strings.Repeat(" ", padding-len(uncoloredStr)) } // ColoredString takes a string and a colour attribute and returns a colored // string with that attribute func ColoredString(str string, colorAttributes ...color.Attribute) string { colour := color.New(colorAttributes...) return ColoredStringDirect(str, colour) } // ColoredStringDirect used for aggregating a few color attributes rather than // just sending a single one func ColoredStringDirect(str string, colour *color.Color) string { return colour.SprintFunc()(fmt.Sprint(str)) } // GetCurrentRepoName gets the repo's base name func GetCurrentRepoName() string { pwd, err := os.Getwd() if err != nil { log.Fatalln(err.Error()) } return filepath.Base(pwd) } // TrimTrailingNewline - Trims the trailing newline // TODO: replace with `chomp` after refactor func TrimTrailingNewline(str string) string { if strings.HasSuffix(str, "\n") { return str[:len(str)-1] } return str } // NormalizeLinefeeds - Removes all Windows and Mac style line feeds func NormalizeLinefeeds(str string) string { str = strings.Replace(str, "\r\n", "\n", -1) str = strings.Replace(str, "\r", "", -1) return str } // GetProjectRoot returns the path to the root of the project. Only to be used // in testing contexts, as with binaries it's unlikely this path will exist on // the machine func GetProjectRoot() string { dir, err := os.Getwd() if err != nil { panic(err) } return strings.Split(dir, "lazygit")[0] + "lazygit" } // Loader dumps a string to be displayed as a loader func Loader() string { characters := "|/-\\" now := time.Now() nanos := now.UnixNano() index := nanos / 50000000 % int64(len(characters)) return characters[index : index+1] } // ResolvePlaceholderString populates a template with values func ResolvePlaceholderString(str string, arguments map[string]string) string { for key, value := range arguments { str = strings.Replace(str, "{{"+key+"}}", value, -1) } return str } // Min returns the minimum of two integers func Min(x, y int) int { if x < y { return x } return y } func RenderDisplayStrings(displayStringsArr [][]string) string { padWidths := getPadWidths(displayStringsArr) paddedDisplayStrings := getPaddedDisplayStrings(displayStringsArr, padWidths) return strings.Join(paddedDisplayStrings, "\n") } // Decolorise strips a string of color func Decolorise(str string) string { re := regexp.MustCompile(`\x1B\[([0-9]{1,2}(;[0-9]{1,2})?)?[m|K]`) return re.ReplaceAllString(str, "") } func getPadWidths(stringArrays [][]string) []int { maxWidth := 0 for _, stringArray := range stringArrays { if len(stringArray) > maxWidth { maxWidth = len(stringArray) } } if maxWidth-1 < 0 { return []int{} } padWidths := make([]int, maxWidth-1) for i := range padWidths { for _, strings := range stringArrays { uncoloredString := Decolorise(strings[i]) if len(uncoloredString) > padWidths[i] { padWidths[i] = len(uncoloredString) } } } return padWidths } func getPaddedDisplayStrings(stringArrays [][]string, padWidths []int) []string { paddedDisplayStrings := make([]string, len(stringArrays)) for i, stringArray := range stringArrays { if len(stringArray) == 0 { continue } for j, padWidth := range padWidths { if len(stringArray)-1 < j { continue } paddedDisplayStrings[i] += WithPadding(stringArray[j], padWidth) + " " } if len(stringArray)-1 < len(padWidths) { continue } paddedDisplayStrings[i] += stringArray[len(padWidths)] } return paddedDisplayStrings } // displayArraysAligned returns true if every string array returned from our // list of displayables has the same length func displayArraysAligned(stringArrays [][]string) bool { for _, strings := range stringArrays { if len(strings) != len(stringArrays[0]) { return false } } return true } // IncludesString if the list contains the string func IncludesString(list []string, a string) bool { for _, b := range list { if b == a { return true } } return false } // IncludesInt if the list contains the Int func IncludesInt(list []int, a int) bool { for _, b := range list { if b == a { return true } } return false } // NextIndex returns the index of the element that comes after the given number func NextIndex(numbers []int, currentNumber int) int { for index, number := range numbers { if number > currentNumber { return index } } return len(numbers) - 1 } // PrevIndex returns the index that comes before the given number, cycling if we reach the end func PrevIndex(numbers []int, currentNumber int) int { end := len(numbers) - 1 for i := end; i >= 0; i-- { if numbers[i] < currentNumber { return i } } return 0 } func AsJson(i interface{}) string { bytes, _ := json.MarshalIndent(i, "", " ") return string(bytes) } // UnionInt returns the union of two int arrays func UnionInt(a, b []int) []int { m := make(map[int]bool) for _, item := range a { m[item] = true } for _, item := range b { if _, ok := m[item]; !ok { // this does not mutate the original a slice // though it does mutate the backing array I believe // but that doesn't matter because if you later want to append to the // original a it must see that the backing array has been changed // and create a new one a = append(a, item) } } return a } // DifferenceInt returns the difference of two int arrays func DifferenceInt(a, b []int) []int { result := []int{} m := make(map[int]bool) for _, item := range b { m[item] = true } for _, item := range a { if _, ok := m[item]; !ok { result = append(result, item) } } return result } // used to keep a number n between 0 and max, allowing for wraparounds func ModuloWithWrap(n, max int) int { if n >= max { return n % max } else if n < 0 { return max + n } else { return n } } // NextIntInCycle returns the next int in a slice, returning to the first index if we've reached the end func NextIntInCycle(sl []int, current int) int { for i, val := range sl { if val == current { if i == len(sl)-1 { return sl[0] } return sl[i+1] } } return sl[0] } // PrevIntInCycle returns the prev int in a slice, returning to the first index if we've reached the end func PrevIntInCycle(sl []int, current int) int { for i, val := range sl { if val == current { if i > 0 { return sl[i-1] } return sl[len(sl)-1] } } return sl[len(sl)-1] } // TruncateWithEllipsis returns a string, truncated to a certain length, with an ellipsis func TruncateWithEllipsis(str string, limit int) string { if limit == 1 && len(str) > 1 { return "." } if limit == 2 && len(str) > 2 { return ".." } ellipsis := "..." if len(str) <= limit { return str } remainingLength := limit - len(ellipsis) return str[0:remainingLength] + "..." } func FindStringSubmatch(str string, regexpStr string) (bool, []string) { re := regexp.MustCompile(regexpStr) match := re.FindStringSubmatch(str) return len(match) > 0, match }