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zyedidia.micro/cmd/micro/micro.go
Dmytro Maluka e923640b37 Move loading colorschemes after initializing plugins 
Micro "allows" plugins to register colorschemes via
config.AddRuntimeFile(). However, that has never really worked, since
InitColorscheme() is called earlier than plugins init() or even
preinit() callbacks are called.

To work around that, plugins that use it (e.g. nord-tc [1]) are using a
tricky hack: call config.AddRuntimeFile() not in init() or preinit() but
directly in Lua's global scope, so that it is called earlier, when the
plugin's Lua code is loaded. This hack is not guaranteed to work, and
works by chance. Furthermore, it only works when starting micro, and
doesn't work after the `reload` command. (The reason it doesn't work is
that PluginAddRuntimeFile() calls FindPlugin() which calls IsLoaded()
which returns false, since, well, the plugin is not loaded, it is only
being loaded. And the reason why it works when starting micro is that
in that case IsLoaded() confusingly returns true, since
GlobalSettings[p.Name] has not been set yet.)

So move InitColorscheme() call after calling plugins init/preinit/
postinit callbacks, to let plugins successfully register colorschemes
in any of those callbacks instead of using the aforementioned hack.

[1] https://github.com/KiranWells/micro-nord-tc-colors
2025-06-24 22:24:47 +02:00

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package main
import (
"flag"
"fmt"
"io"
"log"
"os"
"os/signal"
"path/filepath"
"regexp"
"runtime"
"runtime/pprof"
"sort"
"strconv"
"syscall"
"time"
"github.com/go-errors/errors"
isatty "github.com/mattn/go-isatty"
"github.com/micro-editor/tcell/v2"
lua "github.com/yuin/gopher-lua"
"github.com/zyedidia/micro/v2/internal/action"
"github.com/zyedidia/micro/v2/internal/buffer"
"github.com/zyedidia/micro/v2/internal/clipboard"
"github.com/zyedidia/micro/v2/internal/config"
"github.com/zyedidia/micro/v2/internal/screen"
"github.com/zyedidia/micro/v2/internal/shell"
"github.com/zyedidia/micro/v2/internal/util"
)
var (
// Command line flags
flagVersion = flag.Bool("version", false, "Show the version number and information")
flagConfigDir = flag.String("config-dir", "", "Specify a custom location for the configuration directory")
flagOptions = flag.Bool("options", false, "Show all option help")
flagDebug = flag.Bool("debug", false, "Enable debug mode (prints debug info to ./log.txt)")
flagProfile = flag.Bool("profile", false, "Enable CPU profiling (writes profile info to ./micro.prof)")
flagPlugin = flag.String("plugin", "", "Plugin command")
flagClean = flag.Bool("clean", false, "Clean configuration directory")
optionFlags map[string]*string
sighup chan os.Signal
timerChan chan func()
)
func InitFlags() {
flag.Usage = func() {
fmt.Println("Usage: micro [OPTIONS] [FILE]...")
fmt.Println("-clean")
fmt.Println(" \tCleans the configuration directory")
fmt.Println("-config-dir dir")
fmt.Println(" \tSpecify a custom location for the configuration directory")
fmt.Println("[FILE]:LINE:COL (if the `parsecursor` option is enabled)")
fmt.Println("+LINE:COL")
fmt.Println(" \tSpecify a line and column to start the cursor at when opening a buffer")
fmt.Println("-options")
fmt.Println(" \tShow all option help")
fmt.Println("-debug")
fmt.Println(" \tEnable debug mode (enables logging to ./log.txt)")
fmt.Println("-profile")
fmt.Println(" \tEnable CPU profiling (writes profile info to ./micro.prof")
fmt.Println(" \tso it can be analyzed later with \"go tool pprof micro.prof\")")
fmt.Println("-version")
fmt.Println(" \tShow the version number and information")
fmt.Print("\nMicro's plugins can be managed at the command line with the following commands.\n")
fmt.Println("-plugin install [PLUGIN]...")
fmt.Println(" \tInstall plugin(s)")
fmt.Println("-plugin remove [PLUGIN]...")
fmt.Println(" \tRemove plugin(s)")
fmt.Println("-plugin update [PLUGIN]...")
fmt.Println(" \tUpdate plugin(s) (if no argument is given, updates all plugins)")
fmt.Println("-plugin search [PLUGIN]...")
fmt.Println(" \tSearch for a plugin")
fmt.Println("-plugin list")
fmt.Println(" \tList installed plugins")
fmt.Println("-plugin available")
fmt.Println(" \tList available plugins")
fmt.Print("\nMicro's options can also be set via command line arguments for quick\nadjustments. For real configuration, please use the settings.json\nfile (see 'help options').\n\n")
fmt.Println("-option value")
fmt.Println(" \tSet `option` to `value` for this session")
fmt.Println(" \tFor example: `micro -syntax off file.c`")
fmt.Println("\nUse `micro -options` to see the full list of configuration options")
}
optionFlags = make(map[string]*string)
for k, v := range config.DefaultAllSettings() {
optionFlags[k] = flag.String(k, "", fmt.Sprintf("The %s option. Default value: '%v'.", k, v))
}
flag.Parse()
if *flagVersion {
// If -version was passed
fmt.Println("Version:", util.Version)
fmt.Println("Commit hash:", util.CommitHash)
fmt.Println("Compiled on", util.CompileDate)
exit(0)
}
if *flagOptions {
// If -options was passed
var keys []string
m := config.DefaultAllSettings()
for k := range m {
keys = append(keys, k)
}
sort.Strings(keys)
for _, k := range keys {
v := m[k]
fmt.Printf("-%s value\n", k)
fmt.Printf(" \tDefault value: '%v'\n", v)
}
exit(0)
}
if util.Debug == "OFF" && *flagDebug {
util.Debug = "ON"
}
}
// DoPluginFlags parses and executes any flags that require LoadAllPlugins (-plugin and -clean)
func DoPluginFlags() {
if *flagClean || *flagPlugin != "" {
config.LoadAllPlugins()
if *flagPlugin != "" {
args := flag.Args()
config.PluginCommand(os.Stdout, *flagPlugin, args)
} else if *flagClean {
CleanConfig()
}
exit(0)
}
}
// LoadInput determines which files should be loaded into buffers
// based on the input stored in flag.Args()
func LoadInput(args []string) []*buffer.Buffer {
// There are a number of ways micro should start given its input
// 1. If it is given a files in flag.Args(), it should open those
// 2. If there is no input file and the input is not a terminal, that means
// something is being piped in and the stdin should be opened in an
// empty buffer
// 3. If there is no input file and the input is a terminal, an empty buffer
// should be opened
var filename string
var input []byte
var err error
buffers := make([]*buffer.Buffer, 0, len(args))
btype := buffer.BTDefault
if !isatty.IsTerminal(os.Stdout.Fd()) {
btype = buffer.BTStdout
}
files := make([]string, 0, len(args))
flagStartPos := buffer.Loc{-1, -1}
flagr := regexp.MustCompile(`^\+(\d+)(?::(\d+))?$`)
for _, a := range args {
match := flagr.FindStringSubmatch(a)
if len(match) == 3 && match[2] != "" {
line, err := strconv.Atoi(match[1])
if err != nil {
screen.TermMessage(err)
continue
}
col, err := strconv.Atoi(match[2])
if err != nil {
screen.TermMessage(err)
continue
}
flagStartPos = buffer.Loc{col - 1, line - 1}
} else if len(match) == 3 && match[2] == "" {
line, err := strconv.Atoi(match[1])
if err != nil {
screen.TermMessage(err)
continue
}
flagStartPos = buffer.Loc{0, line - 1}
} else {
files = append(files, a)
}
}
if len(files) > 0 {
// Option 1
// We go through each file and load it
for i := 0; i < len(files); i++ {
buf, err := buffer.NewBufferFromFileAtLoc(files[i], btype, flagStartPos)
if err != nil {
screen.TermMessage(err)
continue
}
// If the file didn't exist, input will be empty, and we'll open an empty buffer
buffers = append(buffers, buf)
}
} else if !isatty.IsTerminal(os.Stdin.Fd()) {
// Option 2
// The input is not a terminal, so something is being piped in
// and we should read from stdin
input, err = io.ReadAll(os.Stdin)
if err != nil {
screen.TermMessage("Error reading from stdin: ", err)
input = []byte{}
}
buffers = append(buffers, buffer.NewBufferFromStringAtLoc(string(input), filename, btype, flagStartPos))
} else {
// Option 3, just open an empty buffer
buffers = append(buffers, buffer.NewBufferFromStringAtLoc(string(input), filename, btype, flagStartPos))
}
return buffers
}
func checkBackup(name string) error {
target := filepath.Join(config.ConfigDir, name)
backup := util.AppendBackupSuffix(target)
if info, err := os.Stat(backup); err == nil {
input, err := os.ReadFile(backup)
if err == nil {
t := info.ModTime()
msg := fmt.Sprintf(buffer.BackupMsg, target, t.Format("Mon Jan _2 at 15:04, 2006"), backup)
choice := screen.TermPrompt(msg, []string{"r", "i", "a", "recover", "ignore", "abort"}, true)
if choice%3 == 0 {
// recover
err := os.WriteFile(target, input, util.FileMode)
if err != nil {
return err
}
return os.Remove(backup)
} else if choice%3 == 1 {
// delete
return os.Remove(backup)
} else if choice%3 == 2 {
// abort
return errors.New("Aborted")
}
}
}
return nil
}
func exit(rc int) {
for _, b := range buffer.OpenBuffers {
if !b.Modified() {
b.Fini()
}
}
if screen.Screen != nil {
screen.Screen.Fini()
}
os.Exit(rc)
}
func main() {
defer func() {
if util.Stdout.Len() > 0 {
fmt.Fprint(os.Stdout, util.Stdout.String())
}
exit(0)
}()
var err error
InitFlags()
if *flagProfile {
f, err := os.Create("micro.prof")
if err != nil {
log.Fatal("error creating CPU profile: ", err)
}
if err := pprof.StartCPUProfile(f); err != nil {
log.Fatal("error starting CPU profile: ", err)
}
defer pprof.StopCPUProfile()
}
InitLog()
err = config.InitConfigDir(*flagConfigDir)
if err != nil {
screen.TermMessage(err)
}
config.InitRuntimeFiles(true)
config.InitPlugins()
err = checkBackup("settings.json")
if err != nil {
screen.TermMessage(err)
exit(1)
}
err = config.ReadSettings()
if err != nil {
screen.TermMessage(err)
}
err = config.InitGlobalSettings()
if err != nil {
screen.TermMessage(err)
}
// flag options
for k, v := range optionFlags {
if *v != "" {
nativeValue, err := config.GetNativeValue(k, config.DefaultAllSettings()[k], *v)
if err != nil {
screen.TermMessage(err)
continue
}
if err = config.OptionIsValid(k, nativeValue); err != nil {
screen.TermMessage(err)
continue
}
config.GlobalSettings[k] = nativeValue
config.VolatileSettings[k] = true
}
}
DoPluginFlags()
err = screen.Init()
if err != nil {
fmt.Println(err)
fmt.Println("Fatal: Micro could not initialize a Screen.")
exit(1)
}
m := clipboard.SetMethod(config.GetGlobalOption("clipboard").(string))
clipErr := clipboard.Initialize(m)
defer func() {
if err := recover(); err != nil {
if screen.Screen != nil {
screen.Screen.Fini()
}
if e, ok := err.(*lua.ApiError); ok {
fmt.Println("Lua API error:", e)
} else {
fmt.Println("Micro encountered an error:", errors.Wrap(err, 2).ErrorStack(), "\nIf you can reproduce this error, please report it at https://github.com/zyedidia/micro/issues")
}
// backup all open buffers
for _, b := range buffer.OpenBuffers {
b.Backup()
}
exit(1)
}
}()
err = config.LoadAllPlugins()
if err != nil {
screen.TermMessage(err)
}
err = checkBackup("bindings.json")
if err != nil {
screen.TermMessage(err)
exit(1)
}
action.InitBindings()
action.InitCommands()
err = config.RunPluginFn("preinit")
if err != nil {
screen.TermMessage(err)
}
action.InitGlobals()
buffer.SetMessager(action.InfoBar)
args := flag.Args()
b := LoadInput(args)
if len(b) == 0 {
// No buffers to open
screen.Screen.Fini()
runtime.Goexit()
}
action.InitTabs(b)
err = config.RunPluginFn("init")
if err != nil {
screen.TermMessage(err)
}
err = config.RunPluginFn("postinit")
if err != nil {
screen.TermMessage(err)
}
err = config.InitColorscheme()
if err != nil {
screen.TermMessage(err)
}
if clipErr != nil {
log.Println(clipErr, " or change 'clipboard' option")
}
config.StartAutoSave()
if a := config.GetGlobalOption("autosave").(float64); a > 0 {
config.SetAutoTime(a)
}
screen.Events = make(chan tcell.Event)
util.Sigterm = make(chan os.Signal, 1)
sighup = make(chan os.Signal, 1)
signal.Notify(util.Sigterm, syscall.SIGTERM, syscall.SIGINT, syscall.SIGQUIT, syscall.SIGABRT)
signal.Notify(sighup, syscall.SIGHUP)
timerChan = make(chan func())
// Here is the event loop which runs in a separate thread
go func() {
for {
screen.Lock()
e := screen.Screen.PollEvent()
screen.Unlock()
if e != nil {
screen.Events <- e
}
}
}()
// clear the drawchan so we don't redraw excessively
// if someone requested a redraw before we started displaying
for len(screen.DrawChan()) > 0 {
<-screen.DrawChan()
}
// wait for initial resize event
select {
case event := <-screen.Events:
action.Tabs.HandleEvent(event)
case <-time.After(10 * time.Millisecond):
// time out after 10ms
}
for {
DoEvent()
}
}
// DoEvent runs the main action loop of the editor
func DoEvent() {
var event tcell.Event
// Display everything
screen.Screen.Fill(' ', config.DefStyle)
screen.Screen.HideCursor()
action.Tabs.Display()
for _, ep := range action.MainTab().Panes {
ep.Display()
}
action.MainTab().Display()
action.InfoBar.Display()
screen.Screen.Show()
// Check for new events
select {
case f := <-shell.Jobs:
// If a new job has finished while running in the background we should execute the callback
f.Function(f.Output, f.Args)
case <-config.Autosave:
for _, b := range buffer.OpenBuffers {
b.AutoSave()
}
case <-shell.CloseTerms:
action.Tabs.CloseTerms()
case event = <-screen.Events:
case <-screen.DrawChan():
for len(screen.DrawChan()) > 0 {
<-screen.DrawChan()
}
case f := <-timerChan:
f()
case b := <-buffer.BackupCompleteChan:
b.RequestedBackup = false
case <-sighup:
exit(0)
case <-util.Sigterm:
exit(0)
}
if e, ok := event.(*tcell.EventError); ok {
log.Println("tcell event error: ", e.Error())
if e.Err() == io.EOF {
// shutdown due to terminal closing/becoming inaccessible
exit(0)
}
return
}
if event != nil {
_, resize := event.(*tcell.EventResize)
if resize {
action.InfoBar.HandleEvent(event)
action.Tabs.HandleEvent(event)
} else if action.InfoBar.HasPrompt {
action.InfoBar.HandleEvent(event)
} else {
action.Tabs.HandleEvent(event)
}
}
err := config.RunPluginFn("onAnyEvent")
if err != nil {
screen.TermMessage(err)
}
}
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