spf13--cobra/command.go
Eric Paris 5452222cb4 Require commands to explicitly state they take arbitrary arguments
The code is riddled with inconsistencies between the root command and
subcommands.  One of those is that the root command cannot take
arbitrary arguments and will complain about invalid subcommands.  But
subcommands will always take arbitrary arguments and will never complain
about invalid sub-sub-commands. I make arbitrary arguments explicitly
listed. You now need to set cmd.TakesArgs = true if you need to be able
to accept arguments tha aren't flags.

This is a pretty major change.
2015-04-06 16:36:52 -04:00

951 lines
23 KiB
Go

// Copyright © 2013 Steve Francia <spf@spf13.com>.
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
//Package cobra is a commander providing a simple interface to create powerful modern CLI interfaces.
//In addition to providing an interface, Cobra simultaneously provides a controller to organize your application code.
package cobra
import (
"bytes"
"fmt"
"io"
"os"
"strings"
flag "github.com/spf13/pflag"
)
// Command is just that, a command for your application.
// eg. 'go run' ... 'run' is the command. Cobra requires
// you to define the usage and description as part of your command
// definition to ensure usability.
type Command struct {
// Name is the command name, usually the executable's name.
name string
// The one-line usage message.
Use string
// An array of aliases that can be used instead of the first word in Use.
Aliases []string
// The short description shown in the 'help' output.
Short string
// The long message shown in the 'help <this-command>' output.
Long string
// Examples of how to use the command
Example string
// Accepts arguments that are not defined in flags. This makes subcommand checking and
// error reporting less strict as we can cannot tell if `command [arg]` is an incorrect
// subcommand or just an argument this command will process.
TakesArgs bool
// Full set of flags
flags *flag.FlagSet
// Set of flags childrens of this command will inherit
pflags *flag.FlagSet
// Flags that are declared specifically by this command (not inherited).
lflags *flag.FlagSet
// Run runs the command.
// The args are the arguments after the command name.
Run func(cmd *Command, args []string)
// Commands is the list of commands supported by this program.
commands []*Command
// Parent Command for this command
parent *Command
// max lengths of commands' string lengths for use in padding
commandsMaxUseLen int
commandsMaxCommandPathLen int
commandsMaxNameLen int
flagErrorBuf *bytes.Buffer
cmdErrorBuf *bytes.Buffer
args []string // actual args parsed from flags
output *io.Writer // nil means stderr; use Out() method instead
usageFunc func(*Command) error // Usage can be defined by application
usageTemplate string // Can be defined by Application
helpTemplate string // Can be defined by Application
helpFunc func(*Command, []string) // Help can be defined by application
helpCommand *Command // The help command
helpFlagVal bool
}
// os.Args[1:] by default, if desired, can be overridden
// particularly useful when testing.
func (c *Command) SetArgs(a []string) {
c.args = a
}
func (c *Command) getOut(def io.Writer) io.Writer {
if c.output != nil {
return *c.output
}
if c.HasParent() {
return c.parent.Out()
} else {
return def
}
}
func (c *Command) Out() io.Writer {
return c.getOut(os.Stderr)
}
func (c *Command) getOutOrStdout() io.Writer {
return c.getOut(os.Stdout)
}
// SetOutput sets the destination for usage and error messages.
// If output is nil, os.Stderr is used.
func (c *Command) SetOutput(output io.Writer) {
c.output = &output
}
// Usage can be defined by application
func (c *Command) SetUsageFunc(f func(*Command) error) {
c.usageFunc = f
}
// Can be defined by Application
func (c *Command) SetUsageTemplate(s string) {
c.usageTemplate = s
}
// Can be defined by Application
func (c *Command) SetHelpFunc(f func(*Command, []string)) {
c.helpFunc = f
}
func (c *Command) SetHelpCommand(cmd *Command) {
c.helpCommand = cmd
}
// Can be defined by Application
func (c *Command) SetHelpTemplate(s string) {
c.helpTemplate = s
}
func (c *Command) UsageFunc() (f func(*Command) error) {
if c.usageFunc != nil {
return c.usageFunc
}
if c.HasParent() {
return c.parent.UsageFunc()
} else {
return func(c *Command) error {
err := tmpl(c.Out(), c.UsageTemplate(), c)
return err
}
}
}
func (c *Command) HelpFunc() func(*Command, []string) {
if c.helpFunc != nil {
return c.helpFunc
}
if c.HasParent() {
return c.parent.HelpFunc()
} else {
return func(c *Command, args []string) {
if len(args) == 0 {
// Help called without any topic, calling on root
c.Root().Help()
return
}
cmd, _, e := c.Root().Find(args)
if cmd == nil || e != nil {
c.Printf("Unknown help topic %#q.", args)
c.Root().Usage()
} else {
err := cmd.Help()
if err != nil {
c.Println(err)
}
}
}
}
}
var minUsagePadding int = 25
func (c *Command) UsagePadding() int {
if c.parent == nil || minUsagePadding > c.parent.commandsMaxUseLen {
return minUsagePadding
} else {
return c.parent.commandsMaxUseLen
}
}
var minCommandPathPadding int = 11
//
func (c *Command) CommandPathPadding() int {
if c.parent == nil || minCommandPathPadding > c.parent.commandsMaxCommandPathLen {
return minCommandPathPadding
} else {
return c.parent.commandsMaxCommandPathLen
}
}
var minNamePadding int = 11
func (c *Command) NamePadding() int {
if c.parent == nil || minNamePadding > c.parent.commandsMaxNameLen {
return minNamePadding
} else {
return c.parent.commandsMaxNameLen
}
}
func (c *Command) UsageTemplate() string {
if c.usageTemplate != "" {
return c.usageTemplate
}
if c.HasParent() {
return c.parent.UsageTemplate()
} else {
return `{{ $cmd := . }}
Usage: {{if .Runnable}}
{{.UseLine}}{{if .HasFlags}} [flags]{{end}}{{end}}{{if .HasSubCommands}}
{{ .CommandPath}} [command]{{end}}{{if gt .Aliases 0}}
Aliases:
{{.NameAndAliases}}
{{end}}{{if .HasExample}}
Examples:
{{ .Example }}
{{end}}{{ if .HasRunnableSubCommands}}
Available Commands: {{range .Commands}}{{if .Runnable}}
{{rpad .Name .NamePadding }} {{.Short}}{{end}}{{end}}
{{end}}
{{ if .HasLocalFlags}}Flags:
{{.LocalFlags.FlagUsages}}{{end}}
{{ if .HasInheritedFlags}}Global Flags:
{{.InheritedFlags.FlagUsages}}{{end}}{{if or (.HasHelpSubCommands) (.HasRunnableSiblings)}}
Additional help topics: {{if .HasHelpSubCommands}}{{range .Commands}}{{if not .Runnable}} {{rpad .CommandPath .CommandPathPadding}} {{.Short}}{{end}}{{end}}{{end}}{{if .HasRunnableSiblings }}{{range .Parent.Commands}}{{if .Runnable}}{{if not (eq .Name $cmd.Name) }}
{{rpad .CommandPath .CommandPathPadding}} {{.Short}}{{end}}{{end}}{{end}}{{end}}
{{end}}{{ if .HasSubCommands }}
Use "{{.Root.Name}} help [command]" for more information about a command.
{{end}}`
}
}
func (c *Command) HelpTemplate() string {
if c.helpTemplate != "" {
return c.helpTemplate
}
if c.HasParent() {
return c.parent.HelpTemplate()
} else {
return `{{with or .Long .Short }}{{. | trim}}{{end}}
{{if or .Runnable .HasSubCommands}}{{.UsageString}}{{end}}
`
}
}
// Really only used when casting a command to a commander
func (c *Command) resetChildrensParents() {
for _, x := range c.commands {
x.parent = c
}
}
// Test if the named flag is a boolean flag.
func isBooleanFlag(name string, f *flag.FlagSet) bool {
flag := f.Lookup(name)
if flag == nil {
return false
}
return flag.Value.Type() == "bool"
}
// Test if the named flag is a boolean flag.
func isBooleanShortFlag(name string, f *flag.FlagSet) bool {
result := false
f.VisitAll(func(f *flag.Flag) {
if f.Shorthand == name && f.Value.Type() == "bool" {
result = true
}
})
return result
}
func stripFlags(args []string, c *Command) []string {
if len(args) < 1 {
return args
}
c.mergePersistentFlags()
commands := []string{}
inQuote := false
inFlag := false
for _, y := range args {
if !inQuote {
switch {
case strings.HasPrefix(y, "\""):
inQuote = true
case strings.Contains(y, "=\""):
inQuote = true
case strings.HasPrefix(y, "--") && !strings.Contains(y, "="):
// TODO: this isn't quite right, we should really check ahead for 'true' or 'false'
inFlag = !isBooleanFlag(y[2:], c.Flags())
case strings.HasPrefix(y, "-") && !strings.Contains(y, "=") && len(y) == 2 && !isBooleanShortFlag(y[1:], c.Flags()):
inFlag = true
case inFlag:
inFlag = false
case y == "":
// strip empty commands, as the go tests expect this to be ok....
case !strings.HasPrefix(y, "-"):
commands = append(commands, y)
inFlag = false
}
}
if strings.HasSuffix(y, "\"") && !strings.HasSuffix(y, "\\\"") {
inQuote = false
}
}
return commands
}
func argsMinusX(args []string, x string) []string {
newargs := []string{}
for _, y := range args {
if x != y {
newargs = append(newargs, y)
}
}
return newargs
}
// find the target command given the args and command tree
// Meant to be run on the highest node. Only searches down.
func (c *Command) Find(arrs []string) (*Command, []string, error) {
if c == nil {
return nil, nil, fmt.Errorf("Called find() on a nil Command")
}
if len(arrs) == 0 {
return c.Root(), arrs, nil
}
var innerfind func(*Command, []string) (*Command, []string)
innerfind = func(c *Command, args []string) (*Command, []string) {
if len(args) > 0 && c.HasSubCommands() {
argsWOflags := stripFlags(args, c)
if len(argsWOflags) > 0 {
matches := make([]*Command, 0)
for _, cmd := range c.commands {
if cmd.Name() == argsWOflags[0] || cmd.HasAlias(argsWOflags[0]) { // exact name or alias match
return innerfind(cmd, argsMinusX(args, argsWOflags[0]))
} else if EnablePrefixMatching {
if strings.HasPrefix(cmd.Name(), argsWOflags[0]) { // prefix match
matches = append(matches, cmd)
}
for _, x := range cmd.Aliases {
if strings.HasPrefix(x, argsWOflags[0]) {
matches = append(matches, cmd)
}
}
}
}
// only accept a single prefix match - multiple matches would be ambiguous
if len(matches) == 1 {
return innerfind(matches[0], argsMinusX(args, argsWOflags[0]))
}
}
}
return c, args
}
commandFound, a := innerfind(c, arrs)
// Reject if there are args left and the command doesn't take args
if commandFound.TakesArgs == false && len(stripFlags(a, commandFound)) > 0 {
return nil, a, fmt.Errorf("unknown command %q", a[0])
}
return commandFound, a, nil
}
func (c *Command) Root() *Command {
var findRoot func(*Command) *Command
findRoot = func(x *Command) *Command {
if x.HasParent() {
return findRoot(x.parent)
} else {
return x
}
}
return findRoot(c)
}
func (c *Command) execute(a []string) (err error) {
if c == nil {
return fmt.Errorf("Called Execute() on a nil Command")
}
err = c.ParseFlags(a)
if err == flag.ErrHelp {
c.Help()
return nil
}
if err != nil {
// We're writing subcommand usage to root command's error buffer to have it displayed to the user
r := c.Root()
if r.cmdErrorBuf == nil {
r.cmdErrorBuf = new(bytes.Buffer)
}
// for writing the usage to the buffer we need to switch the output temporarily
// since Out() returns root output, you also need to revert that on root
out := r.Out()
r.SetOutput(r.cmdErrorBuf)
c.Usage()
r.SetOutput(out)
return err
} else {
// If help is called, regardless of other flags, we print that.
// Print help also if c.Run is nil.
if c.helpFlagVal || !c.Runnable() {
c.Help()
return nil
}
c.preRun()
argWoFlags := c.Flags().Args()
c.Run(c, argWoFlags)
return nil
}
}
func (c *Command) preRun() {
for _, x := range initializers {
x()
}
}
func (c *Command) errorMsgFromParse() string {
s := c.flagErrorBuf.String()
x := strings.Split(s, "\n")
if len(x) > 0 {
return x[0]
} else {
return ""
}
}
// Call execute to use the args (os.Args[1:] by default)
// and run through the command tree finding appropriate matches
// for commands and then corresponding flags.
func (c *Command) Execute() (err error) {
// Regardless of what command execute is called on, run on Root only
if c.HasParent() {
return c.Root().Execute()
}
// initialize help as the last point possible to allow for user
// overriding
c.initHelp()
var args []string
if len(c.args) == 0 {
args = os.Args[1:]
} else {
args = c.args
}
if len(args) == 0 {
// Only the executable is called and the root is runnable, run it
if c.Runnable() {
err = c.execute([]string(nil))
} else {
c.Help()
}
} else {
cmd, flags, e := c.Find(args)
if e != nil {
err = e
} else {
err = cmd.execute(flags)
}
}
if err != nil {
if err == flag.ErrHelp {
c.Help()
} else {
c.Println("Error:", err.Error())
c.Printf("Run '%v help' for usage.\n", c.Root().Name())
}
}
return
}
func (c *Command) initHelp() {
if c.helpCommand == nil {
if !c.HasSubCommands() {
return
}
c.helpCommand = &Command{
Use: "help [command]",
Short: "Help about any command",
Long: `Help provides help for any command in the application.
Simply type ` + c.Name() + ` help [path to command] for full details.`,
TakesArgs: true,
Run: c.HelpFunc(),
}
}
c.AddCommand(c.helpCommand)
}
// Used for testing
func (c *Command) ResetCommands() {
c.commands = nil
c.helpCommand = nil
c.cmdErrorBuf = new(bytes.Buffer)
c.cmdErrorBuf.Reset()
}
//Commands returns a slice of child commands.
func (c *Command) Commands() []*Command {
return c.commands
}
// AddCommand adds one or more commands to this parent command.
func (c *Command) AddCommand(cmds ...*Command) {
for i, x := range cmds {
if cmds[i] == c {
panic("Command can't be a child of itself")
}
cmds[i].parent = c
// update max lengths
usageLen := len(x.Use)
if usageLen > c.commandsMaxUseLen {
c.commandsMaxUseLen = usageLen
}
commandPathLen := len(x.CommandPath())
if commandPathLen > c.commandsMaxCommandPathLen {
c.commandsMaxCommandPathLen = commandPathLen
}
nameLen := len(x.Name())
if nameLen > c.commandsMaxNameLen {
c.commandsMaxNameLen = nameLen
}
c.commands = append(c.commands, x)
}
}
// AddCommand removes one or more commands from a parent command.
func (c *Command) RemoveCommand(cmds ...*Command) {
commands := []*Command{}
main:
for _, command := range c.commands {
for _, cmd := range cmds {
if command == cmd {
command.parent = nil
continue main
}
}
commands = append(commands, command)
}
c.commands = commands
// recompute all lengths
c.commandsMaxUseLen = 0
c.commandsMaxCommandPathLen = 0
c.commandsMaxNameLen = 0
for _, command := range c.commands {
usageLen := len(command.Use)
if usageLen > c.commandsMaxUseLen {
c.commandsMaxUseLen = usageLen
}
commandPathLen := len(command.CommandPath())
if commandPathLen > c.commandsMaxCommandPathLen {
c.commandsMaxCommandPathLen = commandPathLen
}
nameLen := len(command.Name())
if nameLen > c.commandsMaxNameLen {
c.commandsMaxNameLen = nameLen
}
}
}
// Convenience method to Print to the defined output
func (c *Command) Print(i ...interface{}) {
fmt.Fprint(c.Out(), i...)
}
// Convenience method to Println to the defined output
func (c *Command) Println(i ...interface{}) {
str := fmt.Sprintln(i...)
c.Print(str)
}
// Convenience method to Printf to the defined output
func (c *Command) Printf(format string, i ...interface{}) {
str := fmt.Sprintf(format, i...)
c.Print(str)
}
// Output the usage for the command
// Used when a user provides invalid input
// Can be defined by user by overriding UsageFunc
func (c *Command) Usage() error {
c.mergePersistentFlags()
err := c.UsageFunc()(c)
return err
}
// Output the help for the command
// Used when a user calls help [command]
// by the default HelpFunc in the commander
func (c *Command) Help() error {
c.mergePersistentFlags()
err := tmpl(c.getOutOrStdout(), c.HelpTemplate(), c)
return err
}
func (c *Command) UsageString() string {
tmpOutput := c.output
bb := new(bytes.Buffer)
c.SetOutput(bb)
c.Usage()
c.output = tmpOutput
return bb.String()
}
// CommandPath returns the full path to this command.
func (c *Command) CommandPath() string {
str := c.Name()
x := c
for x.HasParent() {
str = x.parent.Name() + " " + str
x = x.parent
}
return str
}
//The full usage for a given command (including parents)
func (c *Command) UseLine() string {
str := ""
if c.HasParent() {
str = c.parent.CommandPath() + " "
}
return str + c.Use
}
// For use in determining which flags have been assigned to which commands
// and which persist
func (c *Command) DebugFlags() {
c.Println("DebugFlags called on", c.Name())
var debugflags func(*Command)
debugflags = func(x *Command) {
if x.HasFlags() || x.HasPersistentFlags() {
c.Println(x.Name())
}
if x.HasFlags() {
x.flags.VisitAll(func(f *flag.Flag) {
if x.HasPersistentFlags() {
if x.persistentFlag(f.Name) == nil {
c.Println(" -"+f.Shorthand+",", "--"+f.Name, "["+f.DefValue+"]", "", f.Value, " [L]")
} else {
c.Println(" -"+f.Shorthand+",", "--"+f.Name, "["+f.DefValue+"]", "", f.Value, " [LP]")
}
} else {
c.Println(" -"+f.Shorthand+",", "--"+f.Name, "["+f.DefValue+"]", "", f.Value, " [L]")
}
})
}
if x.HasPersistentFlags() {
x.pflags.VisitAll(func(f *flag.Flag) {
if x.HasFlags() {
if x.flags.Lookup(f.Name) == nil {
c.Println(" -"+f.Shorthand+",", "--"+f.Name, "["+f.DefValue+"]", "", f.Value, " [P]")
}
} else {
c.Println(" -"+f.Shorthand+",", "--"+f.Name, "["+f.DefValue+"]", "", f.Value, " [P]")
}
})
}
c.Println(x.flagErrorBuf)
if x.HasSubCommands() {
for _, y := range x.commands {
debugflags(y)
}
}
}
debugflags(c)
}
// Name returns the command's name: the first word in the use line.
func (c *Command) Name() string {
if c.name != "" {
return c.name
}
name := c.Use
i := strings.Index(name, " ")
if i >= 0 {
name = name[:i]
}
return name
}
// Determine if a given string is an alias of the command.
func (c *Command) HasAlias(s string) bool {
for _, a := range c.Aliases {
if a == s {
return true
}
}
return false
}
func (c *Command) NameAndAliases() string {
return strings.Join(append([]string{c.Name()}, c.Aliases...), ", ")
}
func (c *Command) HasExample() bool {
return len(c.Example) > 0
}
// Determine if the command is itself runnable
func (c *Command) Runnable() bool {
return c.Run != nil
}
// Determine if the command has children commands
func (c *Command) HasSubCommands() bool {
return len(c.commands) > 0
}
func (c *Command) HasRunnableSiblings() bool {
if !c.HasParent() {
return false
}
for _, sub := range c.parent.commands {
if sub.Runnable() {
return true
}
}
return false
}
func (c *Command) HasHelpSubCommands() bool {
for _, sub := range c.commands {
if !sub.Runnable() {
return true
}
}
return false
}
// Determine if the command has runnable children commands
func (c *Command) HasRunnableSubCommands() bool {
for _, sub := range c.commands {
if sub.Runnable() {
return true
}
}
return false
}
// Determine if the command is a child command
func (c *Command) HasParent() bool {
return c.parent != nil
}
// Get the complete FlagSet that applies to this command (local and persistent declared here and by all parents)
func (c *Command) Flags() *flag.FlagSet {
if c.flags == nil {
c.flags = flag.NewFlagSet(c.Name(), flag.ContinueOnError)
if c.flagErrorBuf == nil {
c.flagErrorBuf = new(bytes.Buffer)
}
c.flags.SetOutput(c.flagErrorBuf)
c.PersistentFlags().BoolVarP(&c.helpFlagVal, "help", "h", false, "help for "+c.Name())
}
return c.flags
}
// Get the local FlagSet specifically set in the current command
func (c *Command) LocalFlags() *flag.FlagSet {
c.mergePersistentFlags()
local := flag.NewFlagSet(c.Name(), flag.ContinueOnError)
c.lflags.VisitAll(func(f *flag.Flag) {
local.AddFlag(f)
})
return local
}
// All Flags which were inherited from parents commands
func (c *Command) InheritedFlags() *flag.FlagSet {
c.mergePersistentFlags()
inherited := flag.NewFlagSet(c.Name(), flag.ContinueOnError)
local := c.LocalFlags()
var rmerge func(x *Command)
rmerge = func(x *Command) {
if x.HasPersistentFlags() {
x.PersistentFlags().VisitAll(func(f *flag.Flag) {
if inherited.Lookup(f.Name) == nil && local.Lookup(f.Name) == nil {
inherited.AddFlag(f)
}
})
}
if x.HasParent() {
rmerge(x.parent)
}
}
if c.HasParent() {
rmerge(c.parent)
}
return inherited
}
// All Flags which were not inherited from parent commands
func (c *Command) NonInheritedFlags() *flag.FlagSet {
return c.LocalFlags()
}
// Get the Persistent FlagSet specifically set in the current command
func (c *Command) PersistentFlags() *flag.FlagSet {
if c.pflags == nil {
c.pflags = flag.NewFlagSet(c.Name(), flag.ContinueOnError)
if c.flagErrorBuf == nil {
c.flagErrorBuf = new(bytes.Buffer)
}
c.pflags.SetOutput(c.flagErrorBuf)
}
return c.pflags
}
// For use in testing
func (c *Command) ResetFlags() {
c.flagErrorBuf = new(bytes.Buffer)
c.flagErrorBuf.Reset()
c.flags = flag.NewFlagSet(c.Name(), flag.ContinueOnError)
c.flags.SetOutput(c.flagErrorBuf)
c.pflags = flag.NewFlagSet(c.Name(), flag.ContinueOnError)
c.pflags.SetOutput(c.flagErrorBuf)
}
// Does the command contain any flags (local plus persistent from the entire structure)
func (c *Command) HasFlags() bool {
return c.Flags().HasFlags()
}
// Does the command contain persistent flags
func (c *Command) HasPersistentFlags() bool {
return c.PersistentFlags().HasFlags()
}
// Does the command has flags specifically declared locally
func (c *Command) HasLocalFlags() bool {
return c.LocalFlags().HasFlags()
}
func (c *Command) HasInheritedFlags() bool {
return c.InheritedFlags().HasFlags()
}
// Climbs up the command tree looking for matching flag
func (c *Command) Flag(name string) (flag *flag.Flag) {
flag = c.Flags().Lookup(name)
if flag == nil {
flag = c.persistentFlag(name)
}
return
}
// recursively find matching persistent flag
func (c *Command) persistentFlag(name string) (flag *flag.Flag) {
if c.HasPersistentFlags() {
flag = c.PersistentFlags().Lookup(name)
}
if flag == nil && c.HasParent() {
flag = c.parent.persistentFlag(name)
}
return
}
// Parses persistent flag tree & local flags
func (c *Command) ParseFlags(args []string) (err error) {
c.mergePersistentFlags()
err = c.Flags().Parse(args)
return
}
func (c *Command) Parent() *Command {
return c.parent
}
func (c *Command) mergePersistentFlags() {
var rmerge func(x *Command)
// Save the set of local flags
if c.lflags == nil {
c.lflags = flag.NewFlagSet(c.Name(), flag.ContinueOnError)
if c.flagErrorBuf == nil {
c.flagErrorBuf = new(bytes.Buffer)
}
c.lflags.SetOutput(c.flagErrorBuf)
addtolocal := func(f *flag.Flag) {
c.lflags.AddFlag(f)
}
c.Flags().VisitAll(addtolocal)
c.PersistentFlags().VisitAll(addtolocal)
}
rmerge = func(x *Command) {
if x.HasPersistentFlags() {
x.PersistentFlags().VisitAll(func(f *flag.Flag) {
if c.Flags().Lookup(f.Name) == nil {
c.Flags().AddFlag(f)
}
})
}
if x.HasParent() {
rmerge(x.parent)
}
}
rmerge(c)
}