# README
Command line interface
Screenshot
Key features
- Lightweight and easy to use.
- Defines flag by tag, e.g. flag name(short or/and long), description, default value, password, prompt and so on.
- Type safety.
- Output looks very nice.
- Supports custom Validator.
- Supports slice and map as a flag.
- Supports any type as a flag field which implements cli.Decoder interface.
- Supports any type as a flag field which uses FlagParser.
- Suggestions for command.(e.g.
hl=>help, "veron" => "version"). - Supports default value for flag, even expression about env variable(e.g.
dft:"$HOME/dev"). - Supports editor like
git commitcommand.(See example 21 and 22)
API documentation
See godoc
Examples
- Example 1: Hello world
- Example 2: How to use flag
- Example 3: How to use required flag
- Example 4: How to use default flag
- Example 5: How to use slice
- Example 6: How to use map
- Example 7: Usage of force flag
- Example 8: Usage of child command
- Example 9: Auto help
- Example 10: Usage of Validator
- Example 11: Prompt and Password
- Example 12: How to use Decoder
- Example 13: Builtin Decoder: PidFile
- Example 14: Builtin Decoder: Time and Duration
- Example 15: Builtin Decoder: File
- Example 16: Parser
- Example 17: Builtin Parser: JSONFileParser
- Example 18: How to use custom parser
- Example 19: How to use Hooks
- Example 20: How to use Daemon
- Example 21: How to use Editor
- Example 22: Custom Editor
Example 1: Hello
// main.go
// This is a HelloWorld-like example
package main
import (
"os"
"github.com/mkideal/cli"
)
type argT struct {
Name string `cli:"name" usage:"tell me your name"`
}
func main() {
os.Exit(cli.Run(new(argT), func(ctx *cli.Context) error {
argv := ctx.Argv().(*argT)
ctx.String("Hello, %s!\n", argv.Name)
return nil
}))
}
$ go build -o hello
$ ./hello --name Clipher
Hello, Clipher!
Example 2: Flag
// main.go
// This example show basic usage of flag
package main
import (
"os"
"github.com/mkideal/cli"
)
type argT struct {
cli.Helper
Port int `cli:"p,port" usage:"short and long format flags both are supported"`
X bool `cli:"x" usage:"boolean type"`
Y bool `cli:"y" usage:"boolean type, too"`
}
func main() {
os.Exit(cli.Run(new(argT), func(ctx *cli.Context) error {
argv := ctx.Argv().(*argT)
ctx.String("port=%d, x=%v, y=%v\n", argv.Port, argv.X, argv.Y)
return nil
}))
}
$ go build -o app
$ ./app -h
Options:
-h, --help display help information
-p, --port short and long format flags both are supported
-x boolean type
-y boolean type, too
$ ./app -p=8080 -x
port=8080, x=true, y=false
$ ./app -p 8080 -x=true
port=8080, x=true, y=false
$ ./app -p8080 -y true
port=8080, x=false, y=true
$ ./app --port=8080 -xy
port=8080, x=true, y=true
$ ./app --port 8080 -yx
port=8080, x=true, y=true
Example 3: Required flag
// main.go
// This example show how to use required flag
package main
import (
"os"
"github.com/mkideal/cli"
)
type argT struct {
cli.Helper
Id uint8 `cli:"*id" usage:"this is a required flag, note the *"`
}
func main() {
os.Exit(cli.Run(new(argT), func(ctx *cli.Context) error {
argv := ctx.Argv().(*argT)
ctx.String("%d\n", argv.Id)
return nil
}))
}
$ go build -o app
$ ./app
ERR! required argument --id missing
$ ./app --id=2
2
Example 4: Default flag
// main.go
// This example show how to use default flag
package main
import (
"os"
"github.com/mkideal/cli"
)
type argT struct {
cli.Helper
Basic int `cli:"basic" usage:"basic usage of default" dft:"2"`
Env string `cli:"env" usage:"env variable as default" dft:"$HOME"`
Expr int `cli:"expr" usage:"expression as default" dft:"$BASE_PORT+1000"`
DevDir string `cli:"devdir" usage:"directory of developer" dft:"$HOME/dev"`
}
func main() {
os.Exit(cli.Run(new(argT), func(ctx *cli.Context) error {
argv := ctx.Argv().(*argT)
ctx.String("%d, %s, %d, %s\n", argv.Basic, argv.Env, argv.Expr, argv.DevDir)
return nil
}))
}
$ go build -o app
$ ./app -h
Options:
-h, --help display help information
--basic[=2] basic usage of default
--env[=$HOME] env variable as default
--expr[=$BASE_PORT+1000] expression as default
--devdir[=$HOME/dev] directory of developer
$ ./app
2, /Users/wang, 1000, /Users/wang/dev
$ BASE_PORT=8000 ./app --basic=3
3, /Users/wang, 9000, /Users/wang/dev
Example 5: Slice
// main.go
// This example show how to use slice as a flag
package main
import (
"os"
"github.com/mkideal/cli"
)
type argT struct {
// []bool, []int, []float32, ... supported too.
Friends []string `cli:"F" usage:"my friends"`
}
func main() {
os.Exit(cli.Run(new(argT), func(ctx *cli.Context) error {
ctx.JSONln(ctx.Argv())
return nil
}))
}
$ go build -o app
$ ./app
{"Friends":null}
$ ./app -FAlice -FBob -F Charlie
{"Friends":["Alice","Bob","Charlie"]}
Example 6: Map
// main.go
// This example show how to use map as a flag
package main
import (
"os"
"github.com/mkideal/cli"
)
type argT struct {
Macros map[string]int `cli:"D" usage:"define macros"`
}
func main() {
os.Exit(cli.Run(new(argT), func(ctx *cli.Context) error {
ctx.JSONln(ctx.Argv())
return nil
}))
}
$ go build -o app
$ ./app
{"Macros":null}
$ ./app -Dx=not-a-number
ERR! `not-a-number` couldn't converted to an int value
$ ./app -Dx=1 -D y=2
{"Macros":{"x":1,"y":2}}
Example 7: Force flag
// main.go
// This example show usage of force flag
// Force flag has prefix !, and must be a boolean.
// Will prevent validating flags if some force flag assigned true
package main
import (
"os"
"github.com/mkideal/cli"
)
type argT struct {
Version bool `cli:"!v" usage:"force flag, note the !"`
Required int `cli:"*r" usage:"required flag"`
}
func main() {
os.Exit(cli.Run(new(argT), func(ctx *cli.Context) error {
argv := ctx.Argv().(*argT)
if argv.Version {
ctx.String("v0.0.1\n")
}
return nil
}))
}
$ go build -o app
$ ./app
ERR! required argument -r missing
# -v is a force flag, and assigned true, so `ERR` disappear.
$ ./app -v
v0.0.1
Example 8: Child command
// main.go
// This example demonstrates usage of child command
package main
import (
"fmt"
"os"
"github.com/mkideal/cli"
)
func main() {
if err := cli.Root(root,
cli.Tree(help),
cli.Tree(child),
).Run(os.Args[1:]); err != nil {
fmt.Fprintln(os.Stderr, err)
os.Exit(1)
}
}
var help = cli.HelpCommand("display help information")
// root command
type rootT struct {
cli.Helper
Name string `cli:"name" usage:"your name"`
}
var root = &cli.Command{
Desc: "this is root command",
// Argv is a factory function of argument object
// ctx.Argv() is if Command.Argv == nil or Command.Argv() is nil
Argv: func() interface{} { return new(rootT) },
Fn: func(ctx *cli.Context) error {
argv := ctx.Argv().(*rootT)
ctx.String("Hello, root command, I am %s\n", argv.Name)
return nil
},
}
// child command
type childT struct {
cli.Helper
Name string `cli:"name" usage:"your name"`
}
var child = &cli.Command{
Name: "child",
Desc: "this is a child command",
Argv: func() interface{} { return new(childT) },
Fn: func(ctx *cli.Context) error {
argv := ctx.Argv().(*childT)
ctx.String("Hello, child command, I am %s\n", argv.Name)
return nil
},
}
$ go build -o app
# help for root
# equivalent to "./app -h"
$ ./app help
this is root command
Options:
-h, --help display help information
--name your name
Commands:
help display help information
child this is a child command
# help for specific command
# equivalent to "./app child -h"
$ ./app help child
this is a child command
Options:
-h, --help display help information
--name your name
# execute root command
$ ./app --name 123
Hello, root command, I am 123
# execute child command
$ ./app child --name=123
Hello, child command, I am 123
# something wrong, but got a suggestion.
$ ./app chd
ERR! command chd not found
Did you mean child?
Example 9: Auto help
// main.go
// This example demonstrates cli.AutoHelper
package main
import (
"os"
"github.com/mkideal/cli"
)
type argT struct {
Help bool `cli:"h,help" usage:"show help"`
}
// AutoHelp implements cli.AutoHelper interface
// NOTE: cli.Helper is a predefined type which implements cli.AutoHelper
func (argv *argT) AutoHelp() bool {
return argv.Help
}
func main() {
os.Exit(cli.Run(new(argT), func(ctx *cli.Context) error {
return nil
}))
}
$ go build -o app
$ ./app -h
Options:
-h, --help show help
Try comment AutoHelp method and rerun it.
Example 10: Usage of Validator
// main.go
// This example demonstrates how to utilize Validator
package main
import (
"fmt"
"os"
"github.com/mkideal/cli"
)
type argT struct {
cli.Helper
Age int `cli:"age" usage:"your age"`
Gender string `cli:"g,gender" usage:"your gender" dft:"male"`
}
// Validate implements cli.Validator interface
func (argv *argT) Validate(ctx *cli.Context) error {
if argv.Age < 0 || argv.Age > 300 {
return fmt.Errorf("age %d out of range", argv.Age)
}
if argv.Gender != "male" && argv.Gender != "female" {
return fmt.Errorf("invalid gender %s", ctx.Color().Yellow(argv.Gender))
}
return nil
}
func main() {
os.Exit(cli.Run(new(argT), func(ctx *cli.Context) error {
ctx.JSONln(ctx.Argv())
return nil
}))
}
$ go build -o app
$ ./app --age=-1
ERR! age -1 out of range
$ ./app --age=1000
ERR! age 1000 out of range
$ ./app -g balabala
ERR! invalid gender balabala
$ ./app --age 88 --gender female
{"Help":false,"Age":88,"Gender":"female"}
Example 11: Prompt and Password
// main.go
// This example introduce prompt and pw tag
package main
import (
"os"
"github.com/mkideal/cli"
)
type argT struct {
cli.Helper
Username string `cli:"u,username" usage:"github account" prompt:"type github account"`
Password string `pw:"p,password" usage:"password of github account" prompt:"type the password"`
}
func main() {
os.Exit(cli.Run(new(argT), func(ctx *cli.Context) error {
argv := ctx.Argv().(*argT)
ctx.String("username=%s, password=%s\n", argv.Username, argv.Password)
return nil
}))
}
$ go build -o app
$ ./app
type github account: hahaha # visible
type the password: # invisible because of `pw` tag
username=hahaha, password=123456
Example 12: Decoder
// main.go
// This example show how to use decoder
package main
import (
"os"
"strings"
"github.com/mkideal/cli"
)
type exampleDecoder struct {
list []string
}
// Decode implements cli.Decoder interface
func (d *exampleDecoder) Decode(s string) error {
d.list = strings.Split(s, ",")
return nil
}
type argT struct {
Example exampleDecoder `cli:"d" usage:"example decoder"`
}
func main() {
os.Exit(cli.Run(new(argT), func(ctx *cli.Context) error {
argv := ctx.Argv().(*argT)
ctx.JSONln(argv.Example.list)
return nil
}))
}
$ go build -o app
$ ./app -d a,b,c
["a","b","c"]
Example 13: Pid file
// main.go
// This example show how to use builtin Decoder: PidFile
package main
import (
"os"
"github.com/mkideal/cli"
clix "github.com/mkideal/cli/ext"
)
type argT struct {
cli.Helper
PidFile clix.PidFile `cli:"pid" usage:"pid file" dft:"013-pidfile.pid"`
}
func main() {
os.Exit(cli.Run(new(argT), func(ctx *cli.Context) error {
argv := ctx.Argv().(*argT)
if err := argv.PidFile.New(); err != nil {
return err
}
defer argv.PidFile.Remove()
return nil
}))
}
Example 14: Time and Duration
// main.go
// This example show how to use builtin Decoder: Time and Duration
package main
import (
"os"
"github.com/mkideal/cli"
clix "github.com/mkideal/cli/ext"
)
type argT struct {
Time clix.Time `cli:"t" usage:"time"`
Duration clix.Duration `cli:"d" usage:"duration"`
}
func main() {
os.Exit(cli.Run(new(argT), func(ctx *cli.Context) error {
argv := ctx.Argv().(*argT)
ctx.String("time=%v, duration=%v\n", argv.Time, argv.Duration)
return nil
}))
}
$ go build -o app
$ ./app -t '2016-1-2 3:5' -d=10ms
time=2016-01-02 03:05:00 +0800 CST, duration=10ms
Example 15: File
// main.go
// This example show how to use builtin Decoder: File
package main
import (
"os"
"github.com/mkideal/cli"
clix "github.com/mkideal/cli/ext"
)
type argT struct {
Content clix.File `cli:"f,file" usage:"read content from file or stdin"`
}
func main() {
os.Exit(cli.Run(new(argT), func(ctx *cli.Context) error {
argv := ctx.Argv().(*argT)
ctx.String(argv.Content.String())
return nil
}))
}
$ go build -o app
# read from stdin
$ echo hello | ./app -f
hello
# read from file
$ echo hello > test.txt && ./app -f test.txt
hello
$ rm test.txt
Example 16: Parser
// main.go
// This example introduce Parser
// `Parser` is another way to use custom type of data.
// Unlike `Decoder`, `Parser` used to parse string according to specific rule,
// like json,yaml and so on.
//
// Builtin parsers:
// * json
// * jsonfile
package main
import (
"os"
"github.com/mkideal/cli"
)
type config struct {
A string
B int
C bool
}
type argT struct {
JSON config `cli:"c,config" usage:"parse json string" parser:"json"`
}
func main() {
os.Exit(cli.Run(new(argT), func(ctx *cli.Context) error {
argv := ctx.Argv().(*argT)
ctx.JSONIndentln(argv.JSON, "", " ")
return nil
}))
}
$ go build -o app
$ ./app
{
"A": "",
"B": 0,
"C": false
}
$ ./app -c '{"A": "hello", "b": 22, "C": true}'
{
"A": "hello",
"B": 22,
"C": true
}
Example 17: JSON file
// main.go
// This example show how to use builtin parser: jsonfile
// It's similar to json, but read string from file.
package main
import (
"os"
"github.com/mkideal/cli"
)
type config struct {
A string
B int
C bool
}
type argT struct {
JSON config `cli:"c,config" usage:"parse json from file" parser:"jsonfile"`
}
func main() {
os.Exit(cli.Run(new(argT), func(ctx *cli.Context) error {
argv := ctx.Argv().(*argT)
ctx.JSONIndentln(argv.JSON, "", " ")
return nil
}))
}
$ go build -o app
$ echo '{"A": "hello", "b": 22, "C": true}' > test.json
$ ./app -c test.json
{
"A": "hello",
"B": 22,
"C": true
}
$ rm test.json
Example 18: Custom parser
// main.go
// This example demonstrates how to use custom parser
package main
import (
"os"
"reflect"
"github.com/mkideal/cli"
)
type myParser struct {
ptr interface{}
}
func newMyParser(ptr interface{}) cli.FlagParser {
return &myParser{ptr}
}
// Parse implements FlagParser.Parse interface
func (parser *myParser) Parse(s string) error {
typ := reflect.TypeOf(parser.ptr)
val := reflect.ValueOf(parser.ptr)
if typ.Kind() == reflect.Ptr {
kind := reflect.Indirect(val).Type().Kind()
if kind == reflect.Struct {
typElem, valElem := typ.Elem(), val.Elem()
numField := valElem.NumField()
for i := 0; i < numField; i++ {
_, valField := typElem.Field(i), valElem.Field(i)
if valField.Kind() == reflect.Int &&
valField.CanSet() {
valField.SetInt(2)
}
if valField.Kind() == reflect.String &&
valField.CanSet() {
valField.SetString("B")
}
}
}
}
return nil
}
type config struct {
A int
B string
}
type argT struct {
Cfg config `cli:"cfg" parser:"myparser"`
}
func main() {
// register parser factory function
cli.RegisterFlagParser("myparser", newMyParser)
os.Exit(cli.Run(new(argT), func(ctx *cli.Context) error {
argv := ctx.Argv().(*argT)
ctx.String("%v\n", argv.Cfg)
return nil
}))
}
$ go build -o app
$ ./app
{0 }
$ ./app --cfg xxx
{2 B}
Example 19: Hooks
// main.go
// This example demonstrates how to use hooks
package main
import (
"fmt"
"os"
"github.com/mkideal/cli"
)
func main() {
if err := cli.Root(root,
cli.Tree(child1),
cli.Tree(child2),
).Run(os.Args[1:]); err != nil {
fmt.Fprintln(os.Stderr, err)
os.Exit(1)
}
}
type argT struct {
Error bool `cli:"e" usage:"return error"`
}
var root = &cli.Command{
Name: "app",
Argv: func() interface{} { return new(argT) },
OnRootBefore: func(ctx *cli.Context) error {
ctx.String("OnRootBefore invoked\n")
return nil
},
OnRootAfter: func(ctx *cli.Context) error {
ctx.String("OnRootAfter invoked\n")
return nil
},
Fn: func(ctx *cli.Context) error {
ctx.String("exec root command\n")
argv := ctx.Argv().(*argT)
if argv.Error {
return fmt.Errorf("root command returns error")
}
return nil
},
}
var child1 = &cli.Command{
Name: "child1",
Argv: func() interface{} { return new(argT) },
OnBefore: func(ctx *cli.Context) error {
ctx.String("child1's OnBefore invoked\n")
return nil
},
OnAfter: func(ctx *cli.Context) error {
ctx.String("child1's OnAfter invoked\n")
return nil
},
Fn: func(ctx *cli.Context) error {
ctx.String("exec child1 command\n")
argv := ctx.Argv().(*argT)
if argv.Error {
return fmt.Errorf("child1 command returns error")
}
return nil
},
}
var child2 = &cli.Command{
Name: "child2",
NoHook: true,
Fn: func(ctx *cli.Context) error {
ctx.String("exec child2 command\n")
return nil
},
}
$ go build -o app
# OnRootBefore => Fn => OnRootAfter
$ ./app
OnRootBefore invoked
exec root command
OnRootAfter invoked
# OnBefore => OnRootBefore => Fn => OnRootAfter => OnAfter
$ ./app child1
child1 OnBefore invoked
OnRootBefore invoked
exec child1 command
OnRootAfter invoked
child1 OnAfter invoked
# No hooks
$ ./app child2
exec child2 command
# OnRootBefore => Fn --> Error
$ ./app -e
OnRootBefore invoked
exec root command
root command returns error
# OnBefore => OnRootBefore => Fn --> Error
$ ./app child1 -e
child1 OnBefore invoked
OnRootBefore invoked
exec child1 command
child1 command returns error
Example 20: Daemon
// main.go
// This example demonstrates how to use `Daemon`
package main
import (
"fmt"
"os"
"time"
"github.com/mkideal/cli"
)
type argT struct {
cli.Helper
Wait uint `cli:"wait" usage:"seconds for waiting" dft:"10"`
Error bool `cli:"e" usage:"create an error"`
}
const successResponsePrefix = "start ok"
func main() {
if err := cli.Root(root,
cli.Tree(daemon),
).Run(os.Args[1:]); err != nil {
fmt.Fprintln(os.Stderr, err)
os.Exit(1)
}
}
var root = &cli.Command{
Argv: func() interface{} { return new(argT) },
Fn: func(ctx *cli.Context) error {
argv := ctx.Argv().(*argT)
if argv.Error {
err := fmt.Errorf("occurs error")
cli.DaemonResponse(err.Error())
return err
}
cli.DaemonResponse(successResponsePrefix)
<-time.After(time.Duration(argv.Wait) * time.Second)
return nil
},
}
var daemon = &cli.Command{
Name: "daemon",
Argv: func() interface{} { return new(argT) },
Fn: func(ctx *cli.Context) error {
return cli.Daemon(ctx, successResponsePrefix)
},
}
$ go build -o daemon-app
$ ./daemone-app daemon
start ok
# Within 10 seconds, you will see process "./daemon-app"
$ ps | grep daemon-app
11913 ttys002 0:00.01 ./daemon-app
11915 ttys002 0:00.00 grep daemon-app
# After 10 seconds
$ ps | grep daemon-app
11936 ttys002 0:00.00 grep daemon-app
# try again with an error
$ ./daemon-app daemon -e
occurs error
$ ps | grep daemon-app
11936 ttys002 0:00.00 grep daemon-app
Example 21: Editor
// main.go
// This example demonstrates how to use `editor`. This similar to git commit
package main
import (
"os"
"github.com/mkideal/cli"
)
type argT struct {
cli.Helper
Msg string `edit:"m" usage:"message"`
}
func main() {
os.Exit(cli.Run(new(argT), func(ctx *cli.Context) error {
argv := ctx.Argv().(*argT)
ctx.String("msg: %s", argv.Msg)
return nil
}))
}
$ go build -o app
$ ./app -m "hello, editor"
msg: hello, editor
$ ./app # Then, launch a editor(default is vim) and type `hello, editor`, quit the editor
msg: hello, editor
Example 22: Custom Editor
// main.go
// This example demonstrates specific editor.
package main
import (
"os"
"github.com/mkideal/cli"
)
type argT struct {
cli.Helper
Msg string `edit:"m" usage:"message"`
}
func main() {
cli.GetEditor = func() (string, error) {
if editor := os.Getenv("EDITOR"); editor != "" {
return editor, nil
}
return cli.DefaultEditor, nil
}
os.Exit(cli.Run(new(argT), func(ctx *cli.Context) error {
argv := ctx.Argv().(*argT)
ctx.String("msg: %s", argv.Msg)
return nil
}))
}
$ go build -o app
$ ./app -m "hello, editor"
msg: hello, editor
$ EDITOR=nano ./app # Then, launch nano and type `hello, editor`, quit the editor
msg: hello, editor
# Functions
AtLeast returns a NumCheckFunc which checks if a number is greater than or equal to num.
AtMost returns a NumCheckFunc which checks if a number is less than or equal to num.
Daemon startup app as a daemon process, success if result from stderr has prefix successPrefix.
DaemonResponse output response to stderr.
ExactN returns a NumCheckFunc which checks if a number is equal to num.
GetUsageStyle gets default style.
HelpCommand returns a buildin help command.
HelpCommandFn implements buildin help command function.
IsValidCommandName validates name of command.
LaunchEditor launchs the specified editor with a random filename.
Parse parses args to object argv.
ReadJSON reads data as a json structure into argv.
ReadJSONConfigFromFile is similar to ReadJSONFromFile, but allows reading file from where the executable file resides as well.
ReadJSONFromFile is similar to ReadJSON, but read from file.
RegisterFlagParser registers FlagParserCreator by name.
Root registers forest for root and returns root.
Run runs a single command app.
RunWithArgs is similar to Run, but with args instead of os.Args.
SetUsageStyle sets default style.
Tree creates a CommandTree.
# Constants
No description provided by the author
DenseManualStyle : up-down, too.
DenseNormalStyle : left-right, too.
ManualStyle : up-down.
NormalStyle : left-right.
# Structs
Deprecated: Addr is builtin host,port flag.
Deprecated: AddrWithShort is builtin host,port flag contains short flag.
No description provided by the author
No description provided by the author
No description provided by the author
Counter implements counter decoder.
Helper is builtin Help flag.
Helper2 is builtin Help flag.
JSON config file parser.
JSON file parser.
JSON parser.
URL parser.
# Interfaces
No description provided by the author
CounterDecoder represents an counter decoder.
Decoder represents an interface which decodes string.
Encoder represents an interface which encodes to string.
FlagParser represents a parser for parsing flag.
SliceDecoder represents an interface which decodes string as slice.
No description provided by the author
# Type aliases
No description provided by the author
No description provided by the author
FlagParserCreator represents factory function of FlagParser.
No description provided by the author
No description provided by the author
UsageStyle is style of usage.