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// Copyright 2025 WIT.COM Inc Licensed GPL 3.0
package forgepb
import (
"path/filepath"
"go.wit.com/lib/cobol"
"go.wit.com/lib/gui/shell"
"go.wit.com/lib/protobuf/gitpb"
"go.wit.com/log"
)
// All this does is output human readable text formatted to be viewable on
// a console with a fixed with font. AKA: a typerwriter
func (f *Forge) PrintHumanTable(allr *gitpb.Repos) {
log.DaemonMode(true)
t := new(tally)
// print the header
args := []string{"Namespace", "branch", "age", "user", "devel", "master", "", "lasttag", "next", "repo type"}
sizes := []int{35, 9, 4, 13, 13, 13, 1, 12, 12, 8}
log.Info(cobol.TerminalChomp(cobol.StandardTableSize10(sizes, args)))
all := allr.SortByFullPath()
for all.Scan() {
repo := all.Next()
f.printRepoToTable(repo, sizes, false)
tallyBranchTotals(t, repo)
}
log.Infof("Total repositories: %d (%d master) (%d devel) (%d user) (%d unknown)\n", t.total, t.master, t.devel, t.user, t.unknown)
}
func (f *Forge) PrintForgedTable(allr *gitpb.Repos) {
log.DaemonMode(true)
t := new(tally)
// print the header
args := []string{"Namespace", "branch", "age", "master", "devel", "last tag", "", "", "", ""}
sizes := []int{35, 9, 4, 13, 13, 13, 13, 12, 12, 8}
log.Info(cobol.TerminalChomp(cobol.StandardTableSize10(sizes, args)))
all := allr.SortByFullPath()
for all.Scan() {
repo := all.Next()
f.printForgedToTable(repo, sizes)
tallyBranchTotals(t, repo)
}
log.Infof("Total repositories: %d (%d user) (%d devel) (%d master) (%d unknown)\n", t.total, t.user, t.devel, t.master, t.unknown)
}
func (f *Forge) PrintHumanTableFull(allr *gitpb.Repos) {
log.DaemonMode(true)
t := new(tally)
// print the header
args := []string{"branch", "age", "user", "devel", "master", "", "lasttag", "next", "repo type", "Namespace"}
sizes := []int{9, 4, 13, 13, 13, 1, 12, 12, 8, 0}
log.Info(cobol.TerminalChomp(cobol.StandardTableSize10(sizes, args)))
all := allr.SortByFullPath()
for all.Scan() {
repo := all.Next()
f.printRepoToTable(repo, sizes, true)
tallyBranchTotals(t, repo)
}
log.Infof("Total repositories: %d (%d user) (%d devel) (%d master) (%d unknown)\n", t.total, t.user, t.devel, t.master, t.unknown)
}
// also shows which files are dirty
func (f *Forge) PrintHumanTableDirty(allr *gitpb.Repos) {
log.DaemonMode(true)
t := new(tally)
// print the header
args := []string{"Namespace", "branch", "age", "user", "devel", "master", "", "lasttag", "next", "repo type"}
sizes := []int{35, 9, 4, 13, 13, 13, 1, 12, 12, 8}
log.Info(cobol.TerminalChomp(cobol.StandardTableSize10(sizes, args)))
for repo := range allr.IterAll() {
f.printRepoToTable(repo, sizes, false)
if len(repo.DirtyList) != 0 {
for _, line := range repo.DirtyList {
log.Info(cobol.TerminalChomp("\t" + line))
}
}
var mver string = repo.GetMasterVersion()
repo.Tags.GetAge(mver)
tallyBranchTotals(t, repo)
}
log.Infof("Total repositories: %d (%d user) (%d devel) (%d master) (%d unknown)\n", t.total, t.user, t.devel, t.master, t.unknown)
}
// used to count which repos are on which branches (master/main, devel, user)
type tally struct {
total int
master int
devel int
user int
unknown int
}
func tallyBranchTotals(t *tally, repo *gitpb.Repo) {
t.total += 1
if repo.GetCurrentBranchName() == repo.GetMasterBranchName() {
t.master += 1
return
}
if repo.GetCurrentBranchName() == repo.GetDevelBranchName() {
t.devel += 1
return
}
if repo.GetCurrentBranchName() == repo.GetUserBranchName() {
t.user += 1
return
}
log.Printf("unknown curr=%s user=%s devel=%s master=%s\n", repo.GetCurrentBranchName(), repo.GetUserBranchName(), repo.GetDevelBranchName(), repo.GetMasterBranchName())
t.unknown += 1
}
func (f *Forge) printRepoToTable(repo *gitpb.Repo, sizes []int, full bool) {
var end string
// shortened version numbers
var mhort string = repo.GetMasterVersion()
var dhort string = repo.GetDevelVersion()
var uver string = repo.GetUserVersion()
if uver == "uerr" {
// blank these out
uver = ""
}
var lasttag string = repo.GetLastTag()
var thort string = repo.GetTargetVersion()
var chort string = "" // repo.GetCurrentBranchVersion()
var cname string = repo.GetCurrentBranchName()
var gopath string = repo.GetNamespace()
if gopath == "" {
gopath = repo.GetFullPath()
}
var rtype string = repo.GetRepoType()
switch rtype {
case "binary":
rtype = "GO bin"
case "library":
rtype = "GO lib"
case "protobuf":
rtype = "GO pb"
}
if f.IsPrivate(repo) {
rtype = "priv"
}
// ctime := repo.Tags.GetAge(mhort)
// age := shell.FormatDuration(time.Since(ctime))
age := shell.FormatDuration(repo.BranchAge(cname))
if f.Config.IsReadOnly(repo.GetGoPath()) {
// end += "(readonly) "
} else {
end += "(rw) "
}
if repo.IsDirty() {
age = ""
uver = "* " + uver
end += "(dirty) "
}
var args []string
if full {
args = []string{cname, age, uver, dhort, mhort, chort, lasttag, thort, rtype, gopath}
} else {
args = []string{gopath, cname, age, uver, dhort, mhort, chort, lasttag, thort, rtype}
}
start := cobol.StandardTableSize10(sizes, args)
if rtype == "protobuf" {
if repo.GoInfo.GoBinary {
end += "(binary) "
}
}
switch repo.GetState() {
case "PERFECT":
case "unchanged":
case "dirty":
case "unknown branches":
if repo.CurrentTag == nil {
end += "(" + repo.GetState() + ") "
} else {
end += "(unknown branch " + repo.CurrentTag.Refname + ") "
}
// end += "(invalid tag) "
default:
end += "(" + repo.GetState() + ") "
}
if repo.GetMasterBranchName() != "master" && repo.GetMasterBranchName() != "main" {
end += "(m:" + repo.GetMasterBranchName() + ") "
}
if repo.GetDevelBranchName() != "devel" {
end += "(d:" + repo.GetDevelBranchName() + ") "
}
if repo.GetUserBranchName() != f.Config.Username {
end += "(u:" + repo.GetUserBranchName() + ") "
}
debname := f.Config.DebName(repo.GetNamespace())
if debname != filepath.Base(gopath) {
end += "(deb:" + debname + ") "
}
log.Info(cobol.TerminalChomp(start + " " + end))
}
func (f *Forge) printForgedToTable(repo *gitpb.Repo, sizes []int) {
var end string
// shortened version numbers
var mhort string = repo.GetMasterVersion()
var dhort string = repo.GetDevelVersion()
var lasttag string = repo.GetLastTag()
var cname string = repo.GetCurrentBranchName()
var ns string = repo.GetNamespace()
age := shell.FormatDuration(repo.BranchAge(cname))
var args []string
args = []string{ns, cname, age, mhort, dhort, lasttag, "", "", "", ""}
start := cobol.StandardTableSize10(sizes, args)
end += "todo"
log.Info(cobol.TerminalChomp(start + " " + end))
}
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