package main import ( "fmt" "os" "strconv" "strings" "time" rpc "github.com/mikkeloscar/aur" ) const arrow = "==>" const smallArrow = " ->" func (warnings *aurWarnings) Print() { if len(warnings.Missing) > 0 { fmt.Print(bold(yellow(smallArrow)) + " Missing AUR Packages:") for _, name := range warnings.Missing { fmt.Print(" " + cyan(name)) } fmt.Println() } if len(warnings.Orphans) > 0 { fmt.Print(bold(yellow(smallArrow)) + " Orphaned AUR Packages:") for _, name := range warnings.Orphans { fmt.Print(" " + cyan(name)) } fmt.Println() } if len(warnings.OutOfDate) > 0 { fmt.Print(bold(yellow(smallArrow)) + " Out Of Date AUR Packages:") for _, name := range warnings.OutOfDate { fmt.Print(" " + cyan(name)) } fmt.Println() } } // human method returns results in human readable format. func human(size int64) string { floatsize := float32(size) units := [...]string{"", "Ki", "Mi", "Gi", "Ti", "Pi", "Ei", "Zi", "Yi"} for _, unit := range units { if floatsize < 1024 { return fmt.Sprintf("%.1f %sB", floatsize, unit) } floatsize /= 1024 } return fmt.Sprintf("%d%s", size, "B") } // PrintSearch handles printing search results in a given format func (q aurQuery) printSearch(start int) { localDb, _ := alpmHandle.LocalDb() for i, res := range q { var toprint string if config.SearchMode == NumberMenu { if config.SortMode == BottomUp { toprint += magenta(strconv.Itoa(len(q)+start-i-1) + " ") } else { toprint += magenta(strconv.Itoa(start+i) + " ") } } else if config.SearchMode == Minimal { fmt.Println(res.Name) continue } toprint += bold(colourHash("aur")) + "/" + bold(res.Name) + " " + cyan(res.Version) + bold(" (+"+strconv.Itoa(res.NumVotes)) + " " + bold(strconv.FormatFloat(res.Popularity, 'f', 2, 64)+"%) ") if res.Maintainer == "" { toprint += bold(red("(Orphaned)")) + " " } if res.OutOfDate != 0 { toprint += bold(red("(Out-of-date "+formatTime(res.OutOfDate)+")")) + " " } if pkg, err := localDb.PkgByName(res.Name); err == nil { if pkg.Version() != res.Version { toprint += bold(green("(Installed: " + pkg.Version() + ")")) } else { toprint += bold(green("(Installed)")) } } toprint += "\n " + res.Description fmt.Println(toprint) } } // PrintSearch receives a RepoSearch type and outputs pretty text. func (s repoQuery) printSearch() { for i, res := range s { var toprint string if config.SearchMode == NumberMenu { if config.SortMode == BottomUp { toprint += magenta(strconv.Itoa(len(s)-i) + " ") } else { toprint += magenta(strconv.Itoa(i+1) + " ") } } else if config.SearchMode == Minimal { fmt.Println(res.Name()) continue } toprint += bold(colourHash(res.DB().Name())) + "/" + bold(res.Name()) + " " + cyan(res.Version()) + bold(" ("+human(res.Size())+ " "+human(res.ISize())+") ") if len(res.Groups().Slice()) != 0 { toprint += fmt.Sprint(res.Groups().Slice(), " ") } localDb, err := alpmHandle.LocalDb() if err == nil { if pkg, err := localDb.PkgByName(res.Name()); err == nil { if pkg.Version() != res.Version() { toprint += bold(green("(Installed: " + pkg.Version() + ")")) } else { toprint += bold(green("(Installed)")) } } } toprint += "\n " + res.Description() fmt.Println(toprint) } } // Pretty print a set of packages from the same package base. // Packages foo and bar from a pkgbase named base would print like so: // base (foo bar) func formatPkgbase(pkg *rpc.Pkg, bases map[string][]*rpc.Pkg) string { str := pkg.PackageBase if len(bases[pkg.PackageBase]) > 1 || pkg.PackageBase != pkg.Name { str2 := " (" for _, split := range bases[pkg.PackageBase] { str2 += split.Name + " " } str2 = str2[:len(str2)-1] + ")" str += str2 } return str } // Print prints the details of the packages to upgrade. func (u upSlice) Print(start int) { for k, i := range u { left, right := getVersionDiff(i.LocalVersion, i.RemoteVersion) fmt.Print(magenta(fmt.Sprintf("%3d ", len(u)+start-k-1))) fmt.Print(bold(colourHash(i.Repository)), "/", bold(i.Name)) w := 70 - len(i.Repository) - len(i.Name) padding := fmt.Sprintf("%%%ds", w) fmt.Printf(padding, left) fmt.Printf(" -> %s\n", right) } } // printDownloadsFromRepo prints repository packages to be downloaded func printDepCatagories(dc *depCatagories) { repo := "" repoMake := "" aur := "" aurMake := "" repoLen := 0 repoMakeLen := 0 aurLen := 0 aurMakeLen := 0 for _, pkg := range dc.Repo { if dc.MakeOnly.get(pkg.Name()) { repoMake += " " + pkg.Name() + "-" + pkg.Version() repoMakeLen++ } else { repo += " " + pkg.Name() + "-" + pkg.Version() repoLen++ } } for _, pkg := range dc.Aur { pkgStr := " " + pkg.PackageBase + "-" + pkg.Version pkgStrMake := pkgStr push := false pushMake := false if len(dc.Bases[pkg.PackageBase]) > 1 || pkg.PackageBase != pkg.Name { pkgStr += " (" pkgStrMake += " (" for _, split := range dc.Bases[pkg.PackageBase] { if dc.MakeOnly.get(split.Name) { pkgStrMake += split.Name + " " aurMakeLen++ pushMake = true } else { pkgStr += split.Name + " " aurLen++ push = true } } pkgStr = pkgStr[:len(pkgStr)-1] + ")" pkgStrMake = pkgStrMake[:len(pkgStrMake)-1] + ")" } else if dc.MakeOnly.get(pkg.Name) { aurMakeLen++ pushMake = true } else { aurLen++ push = true } if push { aur += pkgStr } if pushMake { aurMake += pkgStrMake } } printDownloads("Repo", repoLen, repo) printDownloads("Repo Make", repoMakeLen, repoMake) printDownloads("Aur", aurLen, aur) printDownloads("Aur Make", aurMakeLen, aurMake) } func printDownloads(repoName string, length int, packages string) { if length < 1 { return } repoInfo := bold(blue( "[" + repoName + ": " + strconv.Itoa(length) + "]")) fmt.Println(repoInfo + cyan(packages)) } // PrintInfo prints package info like pacman -Si. func PrintInfo(a *rpc.Pkg) { fmt.Println(bold("Repository :"), "aur") fmt.Println(bold("Name :"), a.Name) fmt.Println(bold("Version :"), a.Version) fmt.Println(bold("Description :"), a.Description) fmt.Println(bold("URL :"), a.URL) fmt.Println(bold("Licenses :"), strings.Join(a.License, " ")) fmt.Println(bold("Provides :"), strings.Join(a.Provides, " ")) fmt.Println(bold("Depends On :"), strings.Join(a.Depends, " ")) fmt.Println(bold("Make Deps :"), strings.Join(a.MakeDepends, " ")) fmt.Println(bold("Check Deps :"), strings.Join(a.CheckDepends, " ")) fmt.Println(bold("Optional Deps :"), strings.Join(a.OptDepends, " ")) fmt.Println(bold("Conflicts With :"), strings.Join(a.Conflicts, " ")) fmt.Println(bold("Maintainer :"), a.Maintainer) fmt.Println(bold("Votes :"), a.NumVotes) fmt.Println(bold("Popularity :"), a.Popularity) if a.OutOfDate != 0 { fmt.Println(bold("Out-of-date :"), "Yes", "["+formatTime(a.OutOfDate)+"]") } fmt.Println() } // BiggestPackages prints the name of the ten biggest packages in the system. func biggestPackages() { localDb, err := alpmHandle.LocalDb() if err != nil { return } pkgCache := localDb.PkgCache() pkgS := pkgCache.SortBySize().Slice() if len(pkgS) < 10 { return } for i := 0; i < 10; i++ { fmt.Println(bold(pkgS[i].Name()) + ": " + cyan(human(pkgS[i].ISize()))) } // Could implement size here as well, but we just want the general idea } // localStatistics prints installed packages statistics. func localStatistics() error { info, err := statistics() if err != nil { return err } _, _, _, remoteNames, err := filterPackages() if err != nil { return err } fmt.Printf(bold("Yay version v%s\n"), version) fmt.Println(bold(cyan("==========================================="))) fmt.Println(bold(green("Total installed packages: ")) + cyan(strconv.Itoa(info.Totaln))) fmt.Println(bold(green("Total foreign installed packages: ")) + cyan(strconv.Itoa(len(remoteNames)))) fmt.Println(bold(green("Explicitly installed packages: ")) + cyan(strconv.Itoa(info.Expln))) fmt.Println(bold(green("Total Size occupied by packages: ")) + cyan(human(info.TotalSize))) fmt.Println(bold(cyan("==========================================="))) fmt.Println(bold(green("Ten biggest packages:"))) biggestPackages() fmt.Println(bold(cyan("==========================================="))) aurInfoPrint(remoteNames) return nil } //TODO: Make it less hacky func printNumberOfUpdates() error { //todo warnings := &aurWarnings{} old := os.Stdout // keep backup of the real stdout os.Stdout = nil aurUp, repoUp, err := upList(warnings) os.Stdout = old // restoring the real stdout if err != nil { return err } fmt.Println(len(aurUp) + len(repoUp)) return nil } //TODO: Make it less hacky func printUpdateList(parser *arguments) error { warnings := &aurWarnings{} old := os.Stdout // keep backup of the real stdout os.Stdout = nil _, _, localNames, remoteNames, err := filterPackages() if err != nil { return err } aurUp, repoUp, err := upList(warnings) os.Stdout = old // restoring the real stdout if err != nil { return err } noTargets := len(parser.targets) == 0 if !parser.existsArg("m", "foreigne") { for _, pkg := range repoUp { if noTargets || parser.targets.get(pkg.Name) { fmt.Printf("%s %s -> %s\n", bold(pkg.Name), green(pkg.LocalVersion), green(pkg.RemoteVersion)) delete(parser.targets, pkg.Name) } } } if !parser.existsArg("n", "native") { for _, pkg := range aurUp { if noTargets || parser.targets.get(pkg.Name) { fmt.Printf("%s %s -> %s\n", bold(pkg.Name), green(pkg.LocalVersion), green(pkg.RemoteVersion)) delete(parser.targets, pkg.Name) } } } missing := false outer: for pkg := range parser.targets { for _, name := range localNames { if name == pkg { continue outer } } for _, name := range remoteNames { if name == pkg { continue outer } } fmt.Println(red(bold("error:")), "package '"+pkg+"' was not found") missing = true } if missing { return fmt.Errorf("") } return nil } // Formats a unix timestamp to yyyy/mm/dd func formatTime(i int) string { t := time.Unix(int64(i), 0) return fmt.Sprintf("%d/%02d/%02d", t.Year(), int(t.Month()), t.Day()) } const ( redCode = "\x1b[31m" greenCode = "\x1b[32m" yellowCode = "\x1b[33m" blueCode = "\x1b[34m" magentaCode = "\x1b[35m" cyanCode = "\x1b[36m" boldCode = "\x1b[1m" resetCode = "\x1b[0m" ) func stylize(startCode, in string) string { if useColor { return startCode + in + resetCode } return in } func red(in string) string { return stylize(redCode, in) } func green(in string) string { return stylize(greenCode, in) } func yellow(in string) string { return stylize(yellowCode, in) } func blue(in string) string { return stylize(blueCode, in) } func cyan(in string) string { return stylize(cyanCode, in) } func magenta(in string) string { return stylize(magentaCode, in) } func bold(in string) string { return stylize(boldCode, in) } // Colours text using a hashing algorithm. The same text will always produce the // same colour while different text will produce a different colour. func colourHash(name string) (output string) { if !useColor { return name } var hash = 5381 for i := 0; i < len(name); i++ { hash = int(name[i]) + ((hash << 5) + (hash)) } return fmt.Sprintf("\x1b[%dm%s\x1b[0m", hash%6+31, name) }