angular-librarian
v1.0.0
Published
A scaffolding setup for Angular 2+ libraries
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Angular Librarian
An Angular 2+ scaffolding setup. Generates AOT-compliant code using similar paradigms to the Angular CLI.
- Migration Guides
- To Use the
ngl
Command - Usage
- Generative Commands
- Project Commands
- Unit Testing
- Custom Configurations
- Packaging
- Contributing
To Use the ngl Command
The ngl
command does not install globally by default. To get it working
there are some additional steps. To learn how to install it on your system,
take a look at CLI.md
.
If you do not want to use the ngl
command, please see the commands in
"Generative Commands" and
"Project Commands" for the alternative usage.
Usage
Create a new folder and initialize an NPM project:
> mkdir my-lib
> cd my-lib
> npm init -f
Install this package to your project:
> npm i -D angular-librarian
The following command (ngl
) is not available out of the box. To set it up, see
"To Use the ngl Command".
Then initialize your project:
> ngl i
Library name: my-lib
README Title: My Library
Repository URL: https://github.com/me/my-lib
Reinitialize Git project (y/N)?
Installing Node modules
...NPM install occurs
Node modules installed
Generative Commands
Generative commands create files for different parts of your library. There are multiple ways to execute commands:
ngl <command_name> [<args>]
or
npm run g <command_name> [<args>]
or
node ./node_modules/angular-librarian <command_name> [<args>]
The ngl
command-line tool and npm run g
are both aliases for calling
node ./node_modules/angular-librarian
. Note that all arguments are optional.
Command | Purpose --- | --- initial | Sets up the project component | Creates a component directive | Creates a directive pipe | Creates a pipe service | Creates a service
initialize (aliases: i, init)
Sets up the project. Can also be run to update a project to the latest Angular Librarian configuration.
Call signature
ngl i <options>
ngl init <options>
ngl initialize <options>
npm run g i <options>
npm run g init <options>
npm run g initialize <options>
Options
--no-install
/--ni
: Skip installing Node modules
Prompts
Library name:
a dash-cased name that is used in constructing thepackage.json
and*.module.ts
file. It is also used to create the class name of the module.Prefix (component/directive selector):
an optional prefix to prepend to any components and directives in your library; leave blank to use no prefixREADME Title:
the string to insert in theREADME.md
fileRepository URL:
the repository where the code will be heldReinitialize Git project (y/N)?
: if left blank, defaults to no. If yes or y are entered, it will reinitialize a git project.
Output
Creates the project structure and a slew of files:
|__examples/
|__example.component.html
|__example.component.ts
|__example.main.ts
|__example.module.ts
|__index.html
|__node_modules/
|__...
|__src/
|__<library name>.module.ts
|__index.ts
|__test.ts
|__webpack/
|__webpack.dev.js
|__webpack.test.js
|__.gitignore
|__.npmignore
|__index.ts
|__karma.conf.js
|__package.json
|__README.md
|__tsconfig.json
|__tslint.json
examples/
: where the example usage of the library can be shownexamples/example.component.html
: the example application's root component templateexamples/example.component.ts
: the example application's root componentexamples/example.main.ts
: the example application's main fileexamples/example.module.ts
: the example application moduleexamples/index.html
: the example application's main HTML filenode_modules/
: where the dependencies installed via NPM are storedsrc/
: where the bulk of application & test code is.src/<library name>.module.ts
: the main module of the librarysrc/index.ts
: a barrel file for easy exporting of classes; makes it easier on consumers to access parts of the code for importing.webpack/
: contains the Wepack configuration fileswebpack/webpack.dev.js
: this file is used when running the webpack-dev-serverwebpack/webpack.test.js
: used when running unit tests.gitignore
: the list of file & folder patterns to not commit to git.npmignore
: the list of file & folder patterns to not publish to NPMindex.ts
: another barrel filekarma.conf.js
: the testing setup for the projectpackage.json
: holds the list of dependencides for the project, scripts, and other metadata about the libraryREADME.md
: a markdown file best used for providing users with an overview of the librarytest.ts
: contains code needed to get the Angular test environment bootstrappedtsconfig.json
: the TypeScript configuration for the projecttslint.json
: the linting rules for the projectvendor.ts
: contains a list of dependencies that Angular needs loaded before the application is loaded
component (alias: c)
Generates a component
Call signatures
ngl c <options>
ngl component <selector> <options>
npm run g c <options>
npm run g component <selector> <options>
Options
--defaults
/-d
: Create a component with file-based templates & styles, no lifecycle hooks--examples
/-x
: Generate the component in theexamples
directory--hooks=<list of hooks>
/--h=<list of hooks>
: Use the provided lifecycle hooks.--inline-styles
/--is
: Use inline styles--inline-template
/--it
: Use an inline template
Prompts
What is the component selector (in dash-case)?
: the selector for the component. This prompt is skipped if a selector is provided when the command is made. The selector is used to generate the component filenames and class name.Use inline styles (y/N)?
: if the user providesn
,no
, or a blank, the component is set up with non-inline styles. If the user providesy
oryes
, the component is set up with inline styles.Use inline template (y/N)?
: if the user providesn
,no
, or a blank, the component is set up with a non-inline template. If the user providesy
oryes
, the component is set up with an inline template.Lifecycle hooks (comma-separated):
users can pass a list of lifecycle hooks in a comma-separated list which will then be added to the component. Understood values are:changes
,check
,destroy
,init
,onchanges
,docheck
,ondestroy
, andoninit
.
Output
In the src
directory, a sub-directory will be created with the selector
name
and a component.ts
, component.spec.ts
, and, if necessary, component.html
and
component.scss
files.
|__src
|__<selector>
|__<selector>.component.html
|__<selector>.component.scss
|__<selector>.component.spec.ts
|__<selector>.component.ts
directive (alias: d)
Generates a directive
Call signatures
ngl d <options>
ngl directive <directive-name> <options>
npm run g d <options>
npm run g directive <directive-name> <options>
Options
--examples
/-x
: Generate the directive in theexamples
directory
Prompts
Directive name (in dash-case):
this prompt is asking for the name of the directive, in dash-case. If the directive name is provided when the command is executed, this prompt is skipped. The directive name is used to generate the directive's filenames, class name and the actual directive used in templates.
Output
In the src
directory, under a directives
sub-directory, two files will be added
for a service--a directive.ts
and directive.spec.ts
file.
|__src
|__directives
|__<directive-name>.directive.spec.ts
|__<directive-name>.directive.ts
service (alias: s)
Generates a service
Call signatures
ngl s <options>
ngl service <service-name> <options>
npm run g s <options>
npm run g service <service-name> <options>
--examples
/-x
: Generate the service in theexamples
directory
Prompts
Service name (in dash-case):
this prompt is asking for the name of the service, in dash-case. If the service name is provided when the command is executed, this prompt is skipped. The service name is used to generate the service's filenames and class name.
Output
In the src
directory, under a services
sub-directory, two files will be added
for a service--a service.ts
and service.spec.ts
file.
|__src
|__services
|__<service-name>.service.spec.ts
|__<service-name>.service.ts
pipe (alias: p)
Generates a pipe
Call signatures
ngl p <options>
ngl p <pipe-name> <options>
npm run g p <options>
npm run g p <pipe-name> <options>
--examples
/-x
: Generate the pipe in theexamples
directory
Prompts
Pipe name (in dash-case):
this prompt is asking for the name of the pipe, in dash-case. If the pipe name is provided when the command is executed, this prompt is skipped. The pipe name is used to generate the pipe's filenames, class name and the actual pipe used in templates.
Output
In the src
directory, under a pipes
sub-directory, two files will be added
for a service--a pipe.ts
and pipe.spec.ts
file.
|__src
|__pipes
|__<pipe-name>.pipe.spec.ts
|__<pipe-name>.pipe.ts
Project Commands
There are commands provided out of the box, as NPM scripts. They are:
Command | Purpose --- | --- build | Runs code through build process via Angular compiler (ngc) lint | Verify code matches linting rules publish | Creates tag for new version and publishes serve | Run Webpack's dev-server on project test | Execute unit tests upgrade | Upgrade current project to latest Angular Librarian
build (alias: b)
Build the library's code. This will run the code through
the ngc
compiler and compile the code for distribution.
Call signatures
ngl build
ngl b
npm run build
lint (alias: l)
Lint code through TSLint
Call signatures
ngl lint
ngl l
npm run lint
publish (alias: pub)
Create a tag and publish the library code using the
np
library. Optionally, arguments can
be passe to make the build work faster.
Note: only use the optional arguments if you are 100% confident your code works with the current dependencies & passes all tests!
Important! To use Librarian's publishing capabilities, you need to have
np
installed globally. This is required because Angular &np
require separate versions of RxJS. Using the Angular-required version of RxJS will breaknp
and usingnp
's will raise apeerDependency
warning.You can install
np
by running the following command:npm install -g np
Call signatures
ngl publish <option>
ngl pub <option>
npm run tagVersion <option>
no-cleanup
/nc
: publishes but does not do a cleanup ofnode_modules
yolo
/y
: publishes but does not do a cleanup ofnode_modules
nor does it run tests.
serve (alias: v)
Start the webpack dev server and run the library code through it.
Call signatures
ngl serve
ngl v
npm start
We use start
for direct npm
commands to keep the command as
concise as possible.
test (alias: t)
Run unit tests on code. For unit test types, see the unit testing section below.
Call signatures
ngl test <type>
ngl t <type>
npm test <type>
upgrade (alias: u, up)
Upgrades the current project to the latest Angular Librarian (if necessary) and update managed files to the latest versions.
Managed files are:
.gitignore
*.npmignore
*- karma.conf.js
package.json
*tsconfig.es2015.json
tsconfig.es5.json
tsconfig.json
tsconfig.test.json
tslint
src/test.js
tasks/
webpack/
Any files with a asterisk (*) next to their name have a merge strategy associated with them:
.gitignore
and.npmignore
will take any custom lines (case-sensitive) and add them to the new filepackage.json
will ensure any dependencies you've added are kept in thedependencies
anddevDependencies
attributes, as necessary.
Call signatures
ngl upgrade
ngl up
ngl u
npm run g upgrade
npm run g up
npm run g u
Unit Testing
Unit testing is done using Karma and Webpack. The setup is all done during the initialize
command.
The provided testing commands will watch your files for changes.
The following commands are described in the test
command section.
These commands call the script at tasks/test.js
and runs the Karma test runner to execute the tests.
Prior to running Karma, the test
command looks for a command line argument, if the argument is known,
it will run the associated configuration, otherwise it will run the default configuration.
Configurations:
Command | Testing TypeScript --- | --- default | Run through PhantomJS one time with no file watching headless (aliases: hl, h)| Run through PhantomJS with files being watched & tests automatically re-run watch (alias: w)| Run through Chrome with files being watched & tests automatically re-run
Note that Chrome still requires a manual refresh on the Debug tab to see updated test results.
Custom Configurations
Some configurations can be extended with custom properties. These
configurations should be placed in a configs
directory under the project's
root directory with the corresponding name:
- Karma configuration (
karma.conf.js
) - Rollup configuration (
rollup.config.js
) - Webpack configurations
webpack.dev.js
webpack.test.js
Karma Configuration
A custom Karma configuration should be a Node module that exports a function.
The exported function will be relay the Karma config
variable. If provided,
any supported attributes provided will be merged.
Those attributes and their merge strategies are:
- Array attributes will create an array of unique values for that attribute and
append the existing attribute; these fields are:
browsers
files
plugins
reporters
- Objects will append new keys, but keep any existing ones--making it so values
provided by Angular Librarian can not be overridden:
preprocessors
- Primitive values will be replaced:
color
logLevel
port
Rollup Configuration
The rollup configuration will append the provided attributes to create a new attribute of unique values. The attributes supported:
commonjs
: a list of CommonJS dependencies to pull in. Will always includenode_modules/rxjs/**
to properly rollup RxJS.external
: creates a new array of unique valuesglobals
: adds new attributes to the object
Note: there is no file provided named rollup.config.js
like other
configuration files--instead the configuration is maintained in
tasks/rollup.js
.
Webpack Configurations
Either of the Webpack configurations can be extended by providing a file with a
matching name in configs
. The configuration is applied using the
webpack-merge
library.
Packaging
To test your packages output before publishing, run the following commands:
ngl build
cd dist
npm pack
These commands will build the output files into a dist
directory, change into
the dist
directory, and generate a compressed file containing your library as
it will look when packaged up and published to NPM. The packaging process
removes any files specific to developing your library, such as *.spec.ts
files
and .npmignore
.
Unscoped Structure
The basic structure of a published, unscoped library is:
|__bundles/
|__<library name>.umd.js
|__<library name>.umd.js.map
|__<library name>.umd.min.js
|__<library name>.bundle.min.js.map
|__index.d.ts
|__package.json
|__README.md
|__*.d.ts
|__<library name>.d.ts
|__<library name>.es5.js
|__<library name>.es5.js.map
|__<library name>.js
|__<library name>.js.map
|__<library name>.metadata.json
|__<library name>.module.d.ts
Scoped Structure
For a scoped package, the structure will appear slightly different:
|__@<scope name>/
|__<library name>.es5.js
|__<library name>.es5.js.map
|__<library name>.js
|__<library name>.js.map
|__bundles/
|__<library name>.umd.js
|__<library name>.umd.js.map
|__<library name>.umd.min.js
|__<library name>.bundle.min.js.map
|__index.d.ts
|__package.json
|__README.md
|__*.d.ts
|__<library name>.d.ts
|__<library name>.metadata.json
|__<library name>.module.d.ts
Contributing
If you'd like to contribute to Angular Librarian, please see the contributing guide!