561fb3b639 | ||
---|---|---|
.. | ||
core | ||
terminal | ||
.travis.yml | ||
CONTRIBUTING.md | ||
Gopkg.lock | ||
Gopkg.toml | ||
LICENSE | ||
README.md | ||
_tasks.hcl | ||
confirm.go | ||
editor.go | ||
filter.go | ||
go.mod | ||
go.sum | ||
input.go | ||
multiline.go | ||
multiselect.go | ||
password.go | ||
select.go | ||
survey.go | ||
transform.go | ||
validate.go |
README.md
Survey
A library for building interactive prompts.
package main
import (
"fmt"
"gopkg.in/AlecAivazis/survey.v1"
)
// the questions to ask
var qs = []*survey.Question{
{
Name: "name",
Prompt: &survey.Input{Message: "What is your name?"},
Validate: survey.Required,
Transform: survey.Title,
},
{
Name: "color",
Prompt: &survey.Select{
Message: "Choose a color:",
Options: []string{"red", "blue", "green"},
Default: "red",
},
},
{
Name: "age",
Prompt: &survey.Input{Message: "How old are you?"},
},
}
func main() {
// the answers will be written to this struct
answers := struct {
Name string // survey will match the question and field names
FavoriteColor string `survey:"color"` // or you can tag fields to match a specific name
Age int // if the types don't match exactly, survey will try to convert for you
}{}
// perform the questions
err := survey.Ask(qs, &answers)
if err != nil {
fmt.Println(err.Error())
return
}
fmt.Printf("%s chose %s.", answers.Name, answers.FavoriteColor)
}
Table of Contents
Examples
Examples can be found in the examples/
directory. Run them
to see basic behavior:
go get gopkg.in/AlecAivazis/survey.v1
cd $GOPATH/src/gopkg.in/AlecAivazis/survey.v1
go run examples/simple.go
go run examples/validation.go
Prompts
Input
name := ""
prompt := &survey.Input{
Message: "ping",
}
survey.AskOne(prompt, &name, nil)
Multiline
text := ""
prompt := &survey.Multiline{
Message: "ping",
}
survey.AskOne(prompt, &text, nil)
Password
password := ""
prompt := &survey.Password{
Message: "Please type your password",
}
survey.AskOne(prompt, &password, nil)
Confirm
name := false
prompt := &survey.Confirm{
Message: "Do you like pie?",
}
survey.AskOne(prompt, &name, nil)
Select
color := ""
prompt := &survey.Select{
Message: "Choose a color:",
Options: []string{"red", "blue", "green"},
}
survey.AskOne(prompt, &color, nil)
The user can also press esc
to toggle the ability cycle through the options with the j and k keys to do down and up respectively.
By default, the select prompt is limited to showing 7 options at a time
and will paginate lists of options longer than that. To increase, you can either
change the global survey.PageSize
, or set the PageSize
field on the prompt:
prompt := &survey.Select{..., PageSize: 10}
MultiSelect
days := []string{}
prompt := &survey.MultiSelect{
Message: "What days do you prefer:",
Options: []string{"Sunday", "Monday", "Tuesday", "Wednesday", "Thursday", "Friday", "Saturday"},
}
survey.AskOne(prompt, &days, nil)
The user can also press esc
to toggle the ability cycle through the options with the j and k keys to do down and up respectively.
By default, the MultiSelect prompt is limited to showing 7 options at a time
and will paginate lists of options longer than that. To increase, you can either
change the global survey.PageSize
, or set the PageSize
field on the prompt:
prompt := &survey.MultiSelect{..., PageSize: 10}
Editor
Launches the user's preferred editor (defined by the $EDITOR environment variable) on a temporary file. Once the user exits their editor, the contents of the temporary file are read in as the result. If neither of those are present, notepad (on Windows) or vim (Linux or Mac) is used.
Filtering options in Select and MultiSelect
The user can filter for options by typing while the prompt is active. This will filter out all options that don't contain the
typed string anywhere in their name, ignoring case. This default filtering behavior is provided by the DefaultFilterFn
function.
A custom filter function can also be provided to change this default behavior by providing a value for the FilterFn
field:
&Select{
Message: "Choose a color:",
Options: []string{"red", "blue", "green"},
FilterFn: func(filter string, options []string) (filtered []string) {
result := DefaultFilterFn(filter, options)
for _, v := range result {
if len(v) >= 5 {
filtered = append(filtered, v)
}
}
return
},
}
While the example above is contrived, this allows for use cases where "smarter" filtering might be useful, for example, when options are backed by more complex types and filtering might need to occur on more metadata than just the displayed name.
Validation
Validating individual responses for a particular question can be done by defining a
Validate
field on the survey.Question
to be validated. This function takes an
interface{}
type and returns an error to show to the user, prompting them for another
response:
q := &survey.Question{
Prompt: &survey.Input{Message: "Hello world validation"},
Validate: func (val interface{}) error {
// since we are validating an Input, the assertion will always succeed
if str, ok := val.(string) ; !ok || len(str) > 10 {
return errors.New("This response cannot be longer than 10 characters.")
}
return nil
},
}
Built-in Validators
survey
comes prepackaged with a few validators to fit common situations. Currently these
validators include:
name | valid types | description | notes |
---|---|---|---|
Required | any | Rejects zero values of the response type | Boolean values pass straight through since the zero value (false) is a valid response |
MinLength(n) | string | Enforces that a response is at least the given length | |
MaxLength(n) | string | Enforces that a response is no longer than the given length |
Help Text
All of the prompts have a Help
field which can be defined to provide more information to your users:
&survey.Input{
Message: "What is your phone number:",
Help: "Phone number should include the area code",
}
Changing the input rune
In some situations, ?
is a perfectly valid response. To handle this, you can change the rune that survey
looks for by setting the HelpInputRune
variable in survey/core
:
import (
"gopkg.in/AlecAivazis/survey.v1"
surveyCore "gopkg.in/AlecAivazis/survey.v1/core"
)
number := ""
prompt := &survey.Input{
Message: "If you have this need, please give me a reasonable message.",
Help: "I couldn't come up with one.",
}
surveyCore.HelpInputRune = '^'
survey.AskOne(prompt, &number, nil)
Custom Types
survey will assign prompt answers to your custom types if they implement this interface:
type settable interface {
WriteAnswer(field string, value interface{}) error
}
Here is an example how to use them:
type MyValue struct {
value string
}
func (my *MyValue) WriteAnswer(name string, value interface{}) error {
my.value = value.(string)
}
myval := MyValue{}
survey.AskOne(
&survey.Input{
Message: "Enter something:",
},
&myval,
nil,
)
Customizing Output
Customizing the icons and various parts of survey can easily be done by setting the following variables
in survey/core
:
name | default | description |
---|---|---|
ErrorIcon | X | Before an error |
HelpIcon | i | Before help text |
QuestionIcon | ? | Before the message of a prompt |
SelectFocusIcon | > | Marks the current focus in Select and MultiSelect prompts |
UnmarkedOptionIcon | [ ] | Marks an unselected option in a MultiSelect prompt |
MarkedOptionIcon | [x] | Marks a chosen selection in a MultiSelect prompt |
Versioning
This project tries to maintain semantic GitHub releases as closely as possible and relies on gopkg.in to maintain those releases. Importing version 1 of survey would look like:
package main
import "gopkg.in/AlecAivazis/survey.v1"
Testing
You can test your program's interactive prompts using go-expect. The library
can be used to expect a match on stdout and respond on stdin. Since os.Stdout
in a go test
process is not a TTY,
if you are manipulating the cursor or using survey
, you will need a way to interpret terminal / ANSI escape sequences
for things like CursorLocation
. vt10x.NewVT10XConsole
will create a go-expect
console that also multiplexes
stdio to an in-memory virtual terminal.
For example, you can test a binary utilizing survey
by connecting the Console's tty to a subprocess's stdio.
func TestCLI(t *testing.T) {
// Multiplex stdin/stdout to a virtual terminal to respond to ANSI escape
// sequences (i.e. cursor position report).
c, state, err := vt10x.NewVT10XConsole()
require.Nil(t, err)
defer c.Close()
donec := make(chan struct{})
go func() {
defer close(donec)
c.ExpectString("What is your name?")
c.SendLine("Johnny Appleseed")
c.ExpectEOF()
}()
cmd := exec.Command("your-cli")
cmd.Stdin = c.Tty()
cmd.Stdout = c.Tty()
cmd.Stderr = c.Tty()
err = cmd.Run()
require.Nil(t, err)
// Close the slave end of the pty, and read the remaining bytes from the master end.
c.Tty().Close()
<-donec
// Dump the terminal's screen.
t.Log(expect.StripTrailingEmptyLines(state.String()))
}
If your application is decoupled from os.Stdout
and os.Stdin
, you can even test through the tty alone.
survey
itself is tested in this manner.
func TestCLI(t *testing.T) {
// Multiplex stdin/stdout to a virtual terminal to respond to ANSI escape
// sequences (i.e. cursor position report).
c, state, err := vt10x.NewVT10XConsole()
require.Nil(t, err)
defer c.Close()
donec := make(chan struct{})
go func() {
defer close(donec)
c.ExpectString("What is your name?")
c.SendLine("Johnny Appleseed")
c.ExpectEOF()
}()
prompt := &Input{
Message: "What is your name?",
}
prompt.WithStdio(Stdio(c))
answer, err := prompt.Prompt()
require.Nil(t, err)
require.Equal(t, "Johnny Appleseed", answer)
// Close the slave end of the pty, and read the remaining bytes from the master end.
c.Tty().Close()
<-donec
// Dump the terminal's screen.
t.Log(expect.StripTrailingEmptyLines(state.String()))
}