258 lines
11 KiB
Markdown
258 lines
11 KiB
Markdown
# Basic usage
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## Installation
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To install Composer, you just need to download the `composer.phar` executable.
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```sh
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curl -sS https://getcomposer.org/installer | php
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```
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For the details, see the [Introduction](00-intro.md) chapter.
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To check if Composer is working, just run the PHAR through `php`:
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```sh
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php composer.phar
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```
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This should give you a list of available commands.
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> **Note:** You can also perform the checks only without downloading Composer
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> by using the `--check` option. For more information, just use `--help`.
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>
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> ```sh
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> curl -sS https://getcomposer.org/installer | php -- --help
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> ```
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## `composer.json`: Project Setup
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To start using Composer in your project, all you need is a `composer.json`
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file. This file describes the dependencies of your project and may contain
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other metadata as well.
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The [JSON format](http://json.org/) is quite easy to write. It allows you to
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define nested structures.
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### The `require` Key
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The first (and often only) thing you specify in `composer.json` is the
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`require` key. You're simply telling Composer which packages your project
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depends on.
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```json
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{
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"require": {
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"monolog/monolog": "1.0.*"
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}
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}
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```
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As you can see, `require` takes an object that maps **package names** (e.g. `monolog/monolog`)
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to **package versions** (e.g. `1.0.*`).
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### Package Names
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The package name consists of a vendor name and the project's name. Often these
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will be identical - the vendor name just exists to prevent naming clashes. It allows
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two different people to create a library named `json`, which would then just be
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named `igorw/json` and `seldaek/json`.
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Here we are requiring `monolog/monolog`, so the vendor name is the same as the
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project's name. For projects with a unique name this is recommended. It also
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allows adding more related projects under the same namespace later on. If you
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are maintaining a library, this would make it really easy to split it up into
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smaller decoupled parts.
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### Package Versions
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In the previous example we were requiring version `1.0.*` of monolog. This
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means any version in the `1.0` development branch. It would match `1.0.0`,
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`1.0.2` or `1.0.20`.
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Version constraints can be specified in a few different ways.
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Name | Example | Description
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-------------- | ------------------------------------------------------------------------ | -----------
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Exact version | `1.0.2` | You can specify the exact version of a package.
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Range | `>=1.0` `>=1.0 <2.0` <code>>=1.0 <1.1 || >=1.2</code> | By using comparison operators you can specify ranges of valid versions. Valid operators are `>`, `>=`, `<`, `<=`, `!=`. <br />You can define multiple ranges. Ranges separated by a space (` `) or comma (`,`) will be treated as a **logical AND**. A double pipe (<code>||</code>) will be treated as a **logical OR**. AND has higher precedence than OR.
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Hyphen Range | `1.0 - 2.0` | Inclusive set of versions. Partial versions on the right include are completed with a wildcard. For example `1.0 - 2.0` is equivalent to `>=1.0.0 <2.1` as the `2.0` becomes `2.0.*`. On the other hand `1.0.0 - 2.1.0` is equivalent to `>=1.0.0 <=2.1.0`.
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Wildcard | `1.0.*` | You can specify a pattern with a `*` wildcard. `1.0.*` is the equivalent of `>=1.0 <1.1`.
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Tilde Operator | `~1.2` | Very useful for projects that follow semantic versioning. `~1.2` is equivalent to `>=1.2 <2.0`. For more details, read the next section below.
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Caret Operator | `^1.2.3` | Very useful for projects that follow semantic versioning. `^1.2.3` is equivalent to `>=1.2.3 <2.0`. For more details, read the next section below.
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### Next Significant Release (Tilde and Caret Operators)
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The `~` operator is best explained by example: `~1.2` is equivalent to
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`>=1.2 <2.0.0`, while `~1.2.3` is equivalent to `>=1.2.3 <1.3.0`. As you can see
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it is mostly useful for projects respecting [semantic
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versioning](http://semver.org/). A common usage would be to mark the minimum
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minor version you depend on, like `~1.2` (which allows anything up to, but not
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including, 2.0). Since in theory there should be no backwards compatibility
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breaks until 2.0, that works well. Another way of looking at it is that using
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`~` specifies a minimum version, but allows the last digit specified to go up.
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The `^` operator behaves very similarly but it sticks closer to semantic
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versioning, and will always allow non-breaking updates. For example `^1.2.3`
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is equivalent to `>=1.2.3 <2.0.0` as none of the releases until 2.0 should
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break backwards compatibility. For pre-1.0 versions it also acts with safety
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in mind and treats `^0.3` as `>=0.3.0 <0.4.0`
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> **Note:** Though `2.0-beta.1` is strictly before `2.0`, a version constraint
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> like `~1.2` would not install it. As said above `~1.2` only means the `.2`
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> can change but the `1.` part is fixed.
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> **Note:** The `~` operator has an exception on its behavior for the major
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> release number. This means for example that `~1` is the same as `~1.0` as
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> it will not allow the major number to increase trying to keep backwards
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> compatibility.
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### Stability
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By default only stable releases are taken into consideration. If you would like
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to also get RC, beta, alpha or dev versions of your dependencies you can do
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so using [stability flags](04-schema.md#package-links). To change that for all
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packages instead of doing per dependency you can also use the
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[minimum-stability](04-schema.md#minimum-stability) setting.
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## Installing Dependencies
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To fetch the defined dependencies into your local project, just run the
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`install` command of `composer.phar`.
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```sh
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php composer.phar install
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```
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This will find the latest version of `monolog/monolog` that matches the
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supplied version constraint and download it into the `vendor` directory.
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It's a convention to put third party code into a directory named `vendor`.
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In case of monolog it will put it into `vendor/monolog/monolog`.
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> **Tip:** If you are using git for your project, you probably want to add
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> `vendor` into your `.gitignore`. You really don't want to add all of that
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> code to your repository.
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Another thing that the `install` command does is it adds a `composer.lock`
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file into your project root.
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## `composer.lock` - The Lock File
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After installing the dependencies, Composer writes the list of the exact
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versions it installed into a `composer.lock` file. This locks the project
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to those specific versions.
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**Commit your application's `composer.lock` (along with `composer.json`) into version control.**
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This is important because the `install` command checks if a lock file is present,
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and if it is, it downloads the versions specified there (regardless of what `composer.json`
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says).
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This means that anyone who sets up the project will download the exact
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same version of the dependencies. Your CI server, production machines, other
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developers in your team, everything and everyone runs on the same dependencies, which
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mitigates the potential for bugs affecting only some parts of the deployments. Even if you
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develop alone, in six months when reinstalling the project you can feel confident the
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dependencies installed are still working even if your dependencies released
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many new versions since then.
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If no `composer.lock` file exists, Composer will read the dependencies and
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versions from `composer.json` and create the lock file after executing the `update` or the `install`
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command.
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This means that if any of the dependencies get a new version, you won't get the updates
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automatically. To update to the new version, use `update` command. This will fetch
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the latest matching versions (according to your `composer.json` file) and also update
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the lock file with the new version.
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```sh
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php composer.phar update
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```
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> **Note:** Composer will display a Warning when executing an `install` command if
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`composer.lock` and `composer.json` are not synchronized.
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If you only want to install or update one dependency, you can whitelist them:
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```sh
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php composer.phar update monolog/monolog [...]
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```
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> **Note:** For libraries it is not necessarily recommended to commit the lock file,
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> see also: [Libraries - Lock file](02-libraries.md#lock-file).
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## Packagist
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[Packagist](https://packagist.org/) is the main Composer repository. A Composer
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repository is basically a package source: a place where you can get packages
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from. Packagist aims to be the central repository that everybody uses. This
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means that you can automatically `require` any package that is available
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there.
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If you go to the [packagist website](https://packagist.org/) (packagist.org),
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you can browse and search for packages.
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Any open source project using Composer should publish their packages on
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packagist. A library doesn't need to be on packagist to be used by Composer,
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but it makes life quite a bit simpler.
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## Autoloading
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For libraries that specify autoload information, Composer generates a
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`vendor/autoload.php` file. You can simply include this file and you
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will get autoloading for free.
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```php
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require 'vendor/autoload.php';
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```
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This makes it really easy to use third party code. For example: If your
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project depends on monolog, you can just start using classes from it, and they
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will be autoloaded.
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```php
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$log = new Monolog\Logger('name');
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$log->pushHandler(new Monolog\Handler\StreamHandler('app.log', Monolog\Logger::WARNING));
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$log->addWarning('Foo');
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```
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You can even add your own code to the autoloader by adding an `autoload` field
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to `composer.json`.
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```json
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{
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"autoload": {
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"psr-4": {"Acme\\": "src/"}
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}
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}
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```
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Composer will register a [PSR-4](http://www.php-fig.org/psr/psr-4/) autoloader
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for the `Acme` namespace.
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You define a mapping from namespaces to directories. The `src` directory would
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be in your project root, on the same level as `vendor` directory is. An example
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filename would be `src/Foo.php` containing an `Acme\Foo` class.
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After adding the `autoload` field, you have to re-run `install` to re-generate
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the `vendor/autoload.php` file.
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Including that file will also return the autoloader instance, so you can store
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the return value of the include call in a variable and add more namespaces.
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This can be useful for autoloading classes in a test suite, for example.
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```php
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$loader = require 'vendor/autoload.php';
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$loader->add('Acme\\Test\\', __DIR__);
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```
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In addition to PSR-4 autoloading, classmap is also supported. This allows
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classes to be autoloaded even if they do not conform to PSR-4. See the
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[autoload reference](04-schema.md#autoload) for more details.
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> **Note:** Composer provides its own autoloader. If you don't want to use
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that one, you can just include `vendor/composer/autoload_*.php` files,
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which return associative arrays allowing you to configure your own autoloader.
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← [Intro](00-intro.md) | [Libraries](02-libraries.md) →
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