gcli
generates a skeleton (codes and its directory structure) you need to start building Command Line Interface (CLI) tool by Golang right out of the box. You can use your favorite CLI framework.
Why you need gcli
? Because you should focus on writing core function of CLI, not on interface. During developing CLI tool by Golang, you may find you're writing the chunk of boilerplate code for interfaces. Stop writing the same codes every time. gcli
generates them and save you a large amount of time by writing such code. This is like Rails scaffold. Not only that, gcli
know the best practices of golang CLI framework library which you want to use. Generated codes follows the most ideal way of using that framework, and you don't need to know about that. See the frameworks it supports now.
The following demo shows creating todo
CLI application which has add
, list
and delete
command with mitchellh/cli (Which is used for Hashicorp products) with one command. As you can see, the generated codes are go build
-able from beginning.
And this video shows creating same todo
CLI application with design
& apply
commands. This is the other way to start building new CLI application. First, it starts with creating design file by design
command. In this file, you can define, CLI name, description of the CLI , framework you want to use, and commands & flags with its usages. After editing, it executes apply
command to generating a project from that design file.
gcli
is single command-line application. This application then takes subcommands. To check the all available commands,
$ gcli help
To get help for any specific subcommand, run it with the -h
flag.
gcli
has 2 main subcommand to generate the project. The one is the new
command, the other is the design
& apply
commands. The former is for generating the project by command line one-liner, the latter is for when you want to design it in your editor before generating (It generates design file and you can generate project based on it). The following section explain, how to use these commands.
The new
command tells gcli to generate CLI project with command-line one-liner,
$ gcli new [options] NAME
You must provides project name (NAME
), the name will be the directory name it includes all codes and be the default binary name. By default, gcli
creates a project under $GOPATH/github.com/<username>
(If you don't provide username via option, it uses github.user
or user.name
in .gitconfig
file). In option, you can set subcommand or flag it has and its description. You can also set your favorite CLI framework there. The followings are all available opntions,
-command=name, -c Command name which you want to add.
This is valid only when cli pacakge support commands.
This can be specified multiple times. Synopsis can be
set after ":". Namely, you can specify command by
-command=NAME:SYNOPSYS. Only NAME is required.
You can set multiple variables at same time with ","
separator.
-flag=name, -f Global flag option name which you want to add.
This can be specified multiple times. By default, flag type
is string and its description is empty. You can set them,
with ":" separator. Namaly, you can specify flag by
-flag=NAME:TYPE:DESCIRPTION. Order must be flow this and
TYPE must be string, bool or int. Only NAME is required.
You can set multiple variables at same time with ","
separator.
-framework=name, -F Cli framework name. By default, gcli use "codegangsta/cli"
To check cli framework you can use, run 'gcli list'.
If you set invalid framework, it will be failed.
-owner=name, -o Command owner (author) name. This value is also used for
import path name. By default, owner name is extracted from
~/.gitconfig variable.
-skip-test, -T Skip generating *_test.go file. By default, gcli generates
test file If you specify this flag, gcli will not generate
test files.
For example, to todo
CLI application which has add
, list
and delete
command with mitchellh/cli,
$ gcli new -F mitchellh_cli -c add -c list -c delete todo
The design
command tells gcli to prepare design template file (.toml
). The design file defines all necessary information to generate CLI application. Some fields are filled with the ideal default value, and some have empty value. You can fill that empty filed with your favorite editor with thinking like what interface that should have or description of that and so on. You can see sample template file sample.toml
.
After design, use apply
command and tells gcli to generate CLI project based on the design file. The following describes this workflow.
First, generate design template file by design
command,
$ gcli design [options] NAME
You must provides project name (NAME
). In option, you can set subcommand or flag it has and its description. You can also set your favorite CLI framework there. You can edit these values in design file later.
Then, edit design file by your favorite $EDITOR
.
$ $EDITOR <NAME>-design.toml
After that validate design by validate
command to check required fields are filled,
$ gcli validate <NAME>-design.toml
Finnaly, generate CLI project with that design file by apply
command,
$ gcli apply <NAME>-desigon.toml
The video for this workflow is available on Vimeo.
There are many framework (package) for buidling command line application by golang. For example, one of the most famous frameworks is codegangsta/cli. The framework helps you not writing many codes. But still you need to write many boilerplate code for that framework. And there are different way to use that framework and learning the ideal way to use is waste of time. gcli writes out with following the best practice for that framework (learn from famous tool that is built with that framework).
gcli
can generate 2 types of CLI pattern. The one is sub-command pattern, the other is flag pattern. The former is flexible and you can add many behavior in one command application. The later is for simple application. You can check the all available frameworks by list
command,
$ gcli list
To change framework, you can use -framework
or -F
option with the framework name. This option can be used for new
, design
and apply
command. By default, codegangsta_cli will be used.
The following section will explain sub-command pattern and flag pattern.
Sub-Command pattern is the pattern that executable takes sub-command for change its behavior. git
command is one example for this pattern. It takes push
, pull
subcommands. gcli
is also this pattern. gcli
supports the following frameworks for the command pattern.
Name | Sample projects |
---|---|
codegangsta_cli | docker machine |
mitchellh_cli | consul, terraform |
go_cmd | go |
(go_cmd is not framework. It only uses standard package. It generates same struct and functions that go
command uses.)
Flag pattern is the pattern that executable has flag options for changing its behavior. For example, grep
command is this pattern. Now gcli
only supports the official flag package for this pattern.
For example, to create command it has -ignore-case
option and context
option (your own grep
),
$ gcli new -F flag -flag=i:Bool -flag=C:Int grep
To install, use go get
and make install
. We tag versions so feel free to checkout that tag and compile.
$ go get -d github.com/tcnksm/gcli
$ cd $GOPATH/src/github.com/tcnksm/gcli
$ make install
- Fork (https://github.com/tcnksm/gcli/fork)
- Create a feature branch
- Commit your changes
- Rebase your local changes against the master branch
- Run test suite with the
make test
command and confirm that it passes - Create a new Pull Request