Express Handlebars ================== [![Join the chat at https://gitter.im/ericf/express-handlebars](https://badges.gitter.im/ericf/express-handlebars.svg)](https://gitter.im/ericf/express-handlebars?utm_source=badge&utm_medium=badge&utm_campaign=pr-badge&utm_content=badge) A [Handlebars][] view engine for [Express][] which doesn't suck. [![npm version][npm-badge]][npm] [![dependency status][dep-badge]][dep-status] **This package used to be named `express3-handlebars`. The previous `express-handlebars` package by @jneen can be found [here][jneen-exphbs].** [Express]: https://github.com/visionmedia/express [Handlebars]: https://github.com/wycats/handlebars.js [npm]: https://www.npmjs.org/package/express-handlebars [npm-badge]: https://img.shields.io/npm/v/express-handlebars.svg?style=flat-square [dep-status]: https://david-dm.org/ericf/express-handlebars [dep-badge]: https://img.shields.io/david/ericf/express-handlebars.svg?style=flat-square [jneen-exphbs]: https://github.com/jneen/express-handlebars ## Goals & Design I created this project out of frustration with the existing Handlebars view engines for Express. As of version 3.x, Express got out of the business of being a generic view engine — this was a great decision — leaving developers to implement the concepts of layouts, partials, and doing file I/O for their template engines of choice. ### Goals and Features After building a half-dozen Express apps, I developed requirements and opinions about what a Handlebars view engine should provide and how it should be implemented. The following is that list: * Add back the concept of "layout", which was removed in Express 3.x. * Add back the concept of "partials" via Handlebars' partials mechanism. * Support a directory of partials; e.g., `{{> foo/bar}}` which exists on the file system at `views/partials/foo/bar.handlebars`, by default. * Smart file system I/O and template caching. When in development, templates are always loaded from disk. In production, raw files and compiled templates are cached, including partials. * All async and non-blocking. File system I/O is slow and servers should not be blocked from handling requests while reading from disk. I/O queuing is used to avoid doing unnecessary work. * Ability to easily precompile templates and partials for use on the client, enabling template sharing and reuse. * Ability to use a different Handlebars module/implementation other than the Handlebars npm package. ### Package Design This package was designed to work great for both the simple and complex use cases. I _intentionally_ made sure the full implementation is exposed and is easily overridable. The package exports a function which can be invoked with no arguments or with a `config` object and it will return a function (closed over sensible defaults) which can be registered with an Express app. It's an engine factory function. This exported engine factory has two properties which expose the underlying implementation: * `ExpressHandlebars()`: The constructor function which holds the internal implementation on its `prototype`. This produces instance objects which store their configuration, `compiled` and `precompiled` templates, and expose an `engine()` function which can be registered with an Express app. * `create()`: A convenience factory function for creating `ExpressHandlebars` instances. An instance-based approach is used so that multiple `ExpressHandlebars` instances can be created with their own configuration, templates, partials, and helpers. ## Installation Install using npm: ```shell $ npm install express-handlebars ``` ## Usage This view engine uses sensible defaults that leverage the "Express-way" of structuring an app's views. This makes it trivial to use in basic apps: ### Basic Usage **Directory Structure:** ``` . ├── app.js └── views ├── home.handlebars └── layouts └── main.handlebars 2 directories, 3 files ``` **app.js:** Creates a super simple Express app which shows the basic way to register a Handlebars view engine using this package. ```javascript var express = require('express'); var exphbs = require('express-handlebars'); var app = express(); app.engine('handlebars', exphbs()); app.set('view engine', 'handlebars'); app.get('/', function (req, res) { res.render('home'); }); app.listen(3000); ``` **views/layouts/main.handlebars:** The main layout is the HTML page wrapper which can be reused for the different views of the app. `{{{body}}}` is used as a placeholder for where the main content should be rendered. ```handlebars
{{foo}}
{{bar}}
``` #### More on Helpers Refer to the [Handlebars website][] for more information on defining helpers: * [Expression Helpers][] * [Block Helpers][] ### Metadata Handlebars has a data channel feature that propagates data through all scopes, including helpers and partials. Values in the data channel can be accessed via the `{{@variable}}` syntax. Express Handlebars provides metadata about a template it renders on a `{{@exphbs}}` object allowing access to things like the view name passed to `res.render()` via `{{@exphbs.view}}`. The following is the list of metadata that's accessible on the `{{@exphbs}}` data object: * `cache`: Boolean whether or not the template is cached. * `view`: String name of the view passed to `res.render()`. * `layout`: String name of the layout view. * `data`: Original data object passed when rendering the template. * `helpers`: Collection of helpers used when rendering the template. * `partials`: Collection of partials used when rendering the template. [examples directory]: https://github.com/ericf/express-handlebars/tree/master/examples [view cache setting]: http://expressjs.com/api.html#app-settings [Express locals]: http://expressjs.com/api.html#app.locals [registered with Handlebars]: https://github.com/wycats/handlebars.js/#registering-helpers [built-in helpers]: http://handlebarsjs.com/#builtins [Handlebars website]: http://handlebarsjs.com/ [Expression Helpers]: http://handlebarsjs.com/expressions.html#helpers [Block Helpers]: http://handlebarsjs.com/block_helpers.html ## API ### Configuration and Defaults There are two main ways to use this package: via its engine factory function, or creating `ExpressHandlebars` instances; both use the same configuration properties and defaults. ```javascript var exphbs = require('express-handlebars'); // Using the engine factory: exphbs({ /* config */ }); // Create an instance: exphbs.create({ /* config */ }); ``` The following is the list of configuration properties and their default values (if any): #### `handlebars=require('handlebars')` The Handlebars module/implementation. This allows for the `ExpressHandlebars` instance to use a different Handlebars module/implementation than that provided by the Handlebars npm package. #### `extname=".handlebars"` The string name of the file extension used by the templates. This value should correspond with the `extname` under which this view engine is registered with Express when calling `app.engine()`. The following example sets up an Express app to use `.hbs` as the file extension for views: ```javascript var express = require('express'); var exphbs = require('express-handlebars'); var app = express(); app.engine('.hbs', exphbs({extname: '.hbs'})); app.set('view engine', '.hbs'); ``` **Note:** Setting the app's `"view engine"` setting will make that value the default file extension used for looking up views. #### `layoutsDir` Default layouts directory is relative to `express settings.view` + `layouts/` The string path to the directory where the layout templates reside. **Note:** If you configure Express to look for views in a custom location (e.g., `app.set('views', 'some/path/')`), and if your `partialsDir` is not relative to `express settings.view` + `layouts/`, you will need to reflect that by passing an updated path as the `layoutsDir` property in your configuration. #### `partialsDir` Default partials directory is relative to `express settings.view` + `partials/` The string path to the directory where the partials templates reside or object with the following properties: * `dir`: The string path to the directory where the partials templates reside. * `namespace`: Optional string namespace to prefix the partial names. * `templates`: Optional collection (or promise of a collection) of templates in the form: `{filename: template}`. **Note:** If you configure Express to look for views in a custom location (e.g., `app.set('views', 'some/path/')`), and if your `partialsDir` is not relative to `express settings.view` + `partials/`, you will need to reflect that by passing an updated path as the `partialsDir` property in your configuration. **Note:** Multiple partials dirs can be used by making `partialsDir` an array of strings, and/or config objects as described above. The namespacing feature is useful if multiple partials dirs are used and their file paths might clash. #### `defaultLayout` The string name or path of a template in the `layoutsDir` to use as the default layout. `main` is used as the default. This is overridden by a `layout` specified in the app or response `locals`. **Note:** A falsy value will render without a layout; e.g., `res.render('home', {layout: false});`. #### `helpers` An object which holds the helper functions used when rendering templates with this `ExpressHandlebars` instance. When rendering a template, a collection of helpers will be generated by merging: `handlebars.helpers` (global), `helpers` (instance), and `options.helpers` (render-level). This allows Handlebars' `registerHelper()` function to operate as expected, will providing two extra levels over helper overrides. #### `compilerOptions` An object which holds options that will be passed along to the Handlebars compiler functions: `Handlebars.compile()` and `Handlebars.precompile()`. ### Properties The public API properties are provided via `ExpressHandlebars` instances. In additional to the properties listed in the **Configuration and Defaults** section, the following are additional public properties: #### `engine` A function reference to the `renderView()` method which is bound to `this` `ExpressHandlebars` instance. This bound function should be used when registering this view engine with an Express app. #### `extname` The normalized `extname` which will _always_ start with `.` and defaults to `.handlebars`. #### `compiled` An object cache which holds compiled Handlebars template functions in the format: `{"path/to/template": [Function]}`. #### `precompiled` An object cache which holds precompiled Handlebars template strings in the format: `{"path/to/template": [String]}`. ### Methods The following is the list of public API methods provided via `ExpressHandlebars` instances: **Note:** All of the public methods return a [`Promise`][promise] (with the exception of `renderView()` which is the interface with Express.) #### `getPartials([options])` Retrieves the partials in the `partialsDir` and returns a Promise for an object mapping the partials in the form `{name: partial}`. By default each partial will be a compiled Handlebars template function. Use `options.precompiled` to receive the partials as precompiled templates — this is useful for sharing templates with client code. **Parameters:** * `[options]`: Optional object containing any of the following properties: * `[cache]`: Whether cached templates can be used if they have already been requested. This is recommended for production to avoid unnecessary file I/O. * `[precompiled=false]`: Whether precompiled templates should be provided, instead of compiled Handlebars template functions. The name of each partial corresponds to its location in `partialsDir`. For example, consider the following directory structure: ``` views └── partials ├── foo │ └── bar.handlebars └── title.handlebars 2 directories, 2 files ``` `getPartials()` would produce the following result: ```javascript var hbs = require('express-handlebars').create(); hbs.getPartials().then(function (partials) { console.log(partials); // => { 'foo/bar': [Function], // => title: [Function] } }); ``` #### `getTemplate(filePath, [options])` Retrieves the template at the specified `filePath` and returns a Promise for the compiled Handlebars template function. Use `options.precompiled` to receive a precompiled Handlebars template. **Parameters:** * `filePath`: String path to the Handlebars template file. * `[options]`: Optional object containing any of the following properties: * `[cache]`: Whether a cached template can be used if it have already been requested. This is recommended for production to avoid necessary file I/O. * `[precompiled=false]`: Whether a precompiled template should be provided, instead of a compiled Handlebars template function. #### `getTemplates(dirPath, [options])` Retrieves all the templates in the specified `dirPath` and returns a Promise for an object mapping the compiled templates in the form `{filename: template}`. Use `options.precompiled` to receive precompiled Handlebars templates — this is useful for sharing templates with client code. **Parameters:** * `dirPath`: String path to the directory containing Handlebars template files. * `[options]`: Optional object containing any of the following properties: * `[cache]`: Whether cached templates can be used if it have already been requested. This is recommended for production to avoid necessary file I/O. * `[precompiled=false]`: Whether precompiled templates should be provided, instead of a compiled Handlebars template function. #### `render(filePath, context, [options])` Renders the template at the specified `filePath` with the `context`, using this instance's `helpers` and partials by default, and returns a Promise for the resulting string. **Parameters:** * `filePath`: String path to the Handlebars template file. * `context`: Object in which the template will be executed. This contains all of the values to fill into the template. * `[options]`: Optional object which can contain any of the following properties which affect this view engine's behavior: * `[cache]`: Whether a cached template can be used if it have already been requested. This is recommended for production to avoid unnecessary file I/O. * `[data]`: Optional object which can contain any data that Handlebars will pipe through the template, all helpers, and all partials. This is a side data channel. * `[helpers]`: Render-level helpers that will be used instead of any instance-level helpers; these will be merged with (and will override) any global Handlebars helper functions. * `[partials]`: Render-level partials that will be used instead of any instance-level partials. This is used internally as an optimization to avoid re-loading all the partials. #### `renderView(viewPath, options|callback, [callback])` Renders the template at the specified `viewPath` as the `{{{body}}}` within the layout specified by the `defaultLayout` or `options.layout`. Rendering will use this instance's `helpers` and partials, and passes the resulting string to the `callback`. This method is called by Express and is the main entry point into this Express view engine implementation. It adds the concept of a "layout" and delegates rendering to the `render()` method. The `options` will be used both as the context in which the Handlebars templates are rendered, and to signal this view engine on how it should behave, e.g., `options.cache=false` will load _always_ load the templates from disk. **Parameters:** * `viewPath`: String path to the Handlebars template file which should serve as the `{{{body}}}` when using a layout. * `[options]`: Optional object which will serve as the context in which the Handlebars templates are rendered. It may also contain any of the following properties which affect this view engine's behavior: * `[cache]`: Whether cached templates can be used if they have already been requested. This is recommended for production to avoid unnecessary file I/O. * `[data]`: Optional object which can contain any data that Handlebars will pipe through the template, all helpers, and all partials. This is a side data channel. * `[helpers]`: Render-level helpers that will be merged with (and will override) instance and global helper functions. * `[partials]`: Render-level partials will be merged with (and will override) instance and global partials. This should be a `{partialName: fn}` hash or a Promise of an object with this shape. * `[layout]`: Optional string path to the Handlebars template file to be used as the "layout". This overrides any `defaultLayout` value. Passing a falsy value will render with no layout (even if a `defaultLayout` is defined). * `callback`: Function to call once the template is retrieved. ### Hooks The following is the list of protected methods that are called internally and serve as _hooks_ to override functionality of `ExpressHandlebars` instances. A value or a promise can be returned from these methods which allows them to perform async operations. #### `_compileTemplate(template, options)` This hook will be called when a Handlebars template needs to be compiled. This function needs to return a compiled Handlebars template function, or a promise for one. By default this hook calls `Handlebars.compile()`, but it can be overridden to preform operations before and/or after Handlebars compiles the template. This is useful if you wanted to first process Markdown within a Handlebars template. **Parameters:** * `template`: String Handlebars template that needs to be compiled. * `options`: Object `compilerOptions` that were specified when the `ExpressHandlebars` instance as created. This object should be passed along to the `Handlebars.compile()` function. #### `_precompileTemplate(template, options)` This hook will be called when a Handlebars template needs to be precompiled. This function needs to return a serialized Handlebars template spec. string, or a promise for one. By default this hook calls `Handlebars.precompile()`, but it can be overridden to preform operations before and/or after Handlebars precompiles the template. This is useful if you wanted to first process Markdown within a Handlebars template. **Parameters:** * `template`: String Handlebars template that needs to be precompiled. * `options`: Object `compilerOptions` that were specified when the `ExpressHandlebars` instance as created. This object should be passed along to the `Handlebars.compile()` function. #### `_renderTemplate(template, context, options)` This hook will be called when a compiled Handlebars template needs to be rendered. This function needs to returned the rendered output string, or a promise for one. By default this hook simply calls the passed-in `template` with the `context` and `options` arguments, but it can be overridden to perform operations before and/or after rendering the template. **Parameters:** * `template`: Compiled Handlebars template function to call. * `context`: The context object in which to render the `template`. * `options`: Object that contains options and metadata for rendering the template: * `data`: Object to define custom `@variable` private variables. * `helpers`: Object to provide custom helpers in addition to the globally defined helpers. * `partials`: Object to provide custom partials in addition to the globally defined partials. [promise]: https://developer.mozilla.org/en-US/docs/Web/JavaScript/Reference/Global_Objects/Promise ## Examples ### [Basic Usage][] This example shows the most basic way to use this view engine. ### [Advanced Usage][] This example is more comprehensive and shows how to use many of the features of this view engine, including helpers, partials, multiple layouts, etc. As noted in the **Package Design** section, this view engine's implementation is instance-based, and more advanced usages can take advantage of this. The Advanced Usage example demonstrates how to use an `ExpressHandlebars` instance to share templates with the client, among other features. [Basic Usage]: https://github.com/ericf/express-handlebars/tree/master/examples/basic [Advanced Usage]: https://github.com/ericf/express-handlebars/tree/master/examples/advanced License ------- This software is free to use under the Yahoo! Inc. BSD license. See the [LICENSE file][] for license text and copyright information. [LICENSE file]: https://github.com/ericf/express-handlebars/blob/master/LICENSE