nx.json
The nx.json
file configures the Nx CLI and project defaults. The full machine readable schema is available on GitHub.
The following is an expanded example showing all options. Your nx.json
will likely be much shorter.
1{
2 "plugins": [
3 {
4 "plugin": "@nx/eslint/plugin",
5 "options": {
6 "targetName": "lint"
7 }
8 }
9 ],
10 "parallel": 4,
11 "cacheDirectory": "tmp/my-nx-cache",
12 "defaultBase": "main",
13 "namedInputs": {
14 "default": ["{projectRoot}/**/*"],
15 "production": ["!{projectRoot}/**/*.spec.tsx"]
16 },
17 "targetDefaults": {
18 "@nx/js:tsc": {
19 "inputs": ["production", "^production"],
20 "dependsOn": ["^build"],
21 "options": {
22 "main": "{projectRoot}/src/index.ts"
23 },
24 "cache": true
25 },
26 "test": {
27 "cache": true,
28 "inputs": ["default", "^production", "{workspaceRoot}/jest.preset.js"],
29 "outputs": ["{workspaceRoot}/coverage/{projectRoot}"],
30 "executor": "@nx/jest:jest"
31 }
32 },
33 "release": {
34 "version": {
35 "generatorOptions": {
36 "currentVersionResolver": "git-tag",
37 "specifierSource": "conventional-commits"
38 }
39 },
40 "changelog": {
41 "git": {
42 "commit": true,
43 "tag": true
44 },
45 "workspaceChangelog": {
46 "createRelease": "github"
47 },
48 "projectChangelogs": true
49 }
50 },
51 "generators": {
52 "@nx/js:library": {
53 "buildable": true
54 }
55 },
56 "extends": "nx/presets/npm.json"
57}
58
Plugins
Nx plugins improve the experience of using different tools with Nx. One key feature of plugins is that they can automatically configure the way Nx runs tasks for a tool based on that tool's configuration. In order for a plugin to configure tasks for Nx, it needs to be registered in the plugins
array. If a plugin has no options, it can be listed as a string. Otherwise, it should be listed as an object with a plugin
property and an options
property.
Every plugin behaves differently, so consult the plugin's own documentation for information about what it does. You can browse the plugin registry for available plugins.
To learn about creating your own plugin read about extending Nx.
1{
2 "plugins": [
3 "@my-org/graph-plugin",
4 {
5 "plugin": "@nx/eslint/plugin",
6 "options": {
7 "targetName": "lint"
8 }
9 }
10 ]
11}
12
Scope Plugins to Specific Projects
Plugins use config files to infer tasks for projects. You can specify which config files are processed by Nx plugins using the include
and exclude
properties in the plugin configuration object.
1{
2 "plugins": [
3 {
4 "plugin": "@nx/jest/plugin",
5 "include": ["packages/**/*"], // include any projects in the packages folder
6 "exclude": ["**/*-e2e/**/*"] // exclude any projects in a *-e2e folder
7 }
8 ]
9}
10
The include
and exclude
properties are each file glob patterns that are used to include or exclude the configuration file that the plugin is interpreting. In the example provided, the @nx/jest/plugin
plugin will only infer tasks for projects where the jest.config.ts
file path matches the packages/**/*
glob but does not match the **/*-e2e/**/*
glob.
Task Options
The following properties affect the way Nx runs tasks and can be set at the root of nx.json
.
Property | Description |
---|---|
parallel | defines the max number of targets run in parallel |
captureStderr | defines whether the cache captures stderr or just stdout |
skipNxCache | defines whether the Nx Cache should be skipped (defaults to false ) |
cacheDirectory | defines where the local cache is stored (defaults to .nx/cache ) |
encryptionKey | (when using "nx-cloud" only) defines an encryption key to support end-to-end encryption of your cloud cache. You may also provide an environment variable with the key NX_CLOUD_ENCRYPTION_KEY that contains an encryption key as its value. The Nx Cloud task runner normalizes the key length, so any length of key is acceptable |
selectivelyHashTsConfig | only hash the path mapping of the active project in the tsconfig.base.json (e.g., adding/removing projects doesn't affect the hash of existing projects) (defaults to false ) |
You can configure parallel
in nx.json
, but you can also set a --parallel
flag in the terminal nx run-many -t test --parallel=5
.
Default Base
Tells Nx which base branch to use when calculating affected projects.
defaultBase
defines the default base branch, defaults tomain
.
Target Defaults
Target defaults provide ways to set common options for a particular target in your workspace. When building your project's configuration, we merge it with up to 1 default from this map. For a given target, we look at its name and its executor. We then check target defaults looking for a configuration whose key matches any of the following:
`${executor}`
`${targetName}`
(if the configuration specifies the executor, this needs to match the target's executor as well)
Additionally, if there is not a match for either of the above, we look for other keys that may match the target name via a glob pattern. For example, a key in the target defaults that looks like e2e-ci--**/*
would match all of the targets created by a task atomizer plugin.
Target defaults matching the executor takes precedence over those matching the target name. If we find a target default for a given target, we use it as the base for that target's configuration.
BewareWhen using a target name as the key of a target default, make sure all the targets with that name use the same executor or that the target defaults you're setting make sense to all targets regardless of the executor they use. Anything set in a target default will also override the configuration of tasks inferred by plugins.
Some common scenarios for this follow.
inputs & namedInputs
Named inputs defined in nx.json
are merged with the named inputs defined in project level configuration. In other words, every project has a set of named inputs, and it's defined as: {...namedInputsFromNxJson, ...namedInputsFromProjectsProjectJson}
.
Defining inputs
for a given target would replace the set of inputs for that target name defined in nx.json
. Using pseudocode inputs = projectJson.targets.build.inputs || nxJson.targetDefaults.build.inputs
.
You can also define and redefine named inputs. This enables one key use case, where your nx.json
can define things like this (which applies to every project):
1{
2 "targetDefaults": {
3 "test": {
4 "inputs": ["default", "^production"]
5 }
6 }
7}
8
And projects can define their production
inputs, without having to redefine the inputs for the test
target.
1{
2 "namedInputs": {
3 "production": ["default", "!{projectRoot}/**/*.test.js"]
4 }
5}
6
In this case Nx will use the right production
input for each project.
Learn about all the possible settings for `inputs` and `namedInputs`
This recipes walks you through a few examples of how to configure `inputs` and `namedInputs`
Task Pipelines
Targets can depend on other targets. A common scenario is having to build dependencies of a project first before building the project. The dependsOn
property in project.json
can be used to define the list of dependencies of an individual target.
Often the same dependsOn
configuration has to be defined for every project in the repo, and that's when defining targetDefaults
in nx.json
is helpful.
1{
2 "targetDefaults": {
3 "build": {
4 "dependsOn": ["^build"]
5 }
6 }
7}
8
The configuration above is identical to adding {"dependsOn": ["^build"]}
to every build
target of every project.
For full documentation of the `dependsOn` property, see the project configuration reference
This guide describes how to think about task pipelines
Outputs
Another target default you can configure is outputs
:
1{
2 "targetDefaults": {
3 "build": {
4 "outputs": ["{projectRoot}/custom-dist"]
5 }
6 }
7}
8
When defining any options or configurations inside of a target default, you may use the {workspaceRoot}
and {projectRoot}
tokens. This is useful for defining options whose values are paths.
1{
2 "targetDefaults": {
3 "@nx/js:tsc": {
4 "options": {
5 "main": "{projectRoot}/src/index.ts"
6 },
7 "configurations": {
8 "prod": {
9 "tsconfig": "{projectRoot}/tsconfig.prod.json"
10 }
11 },
12 "inputs": ["prod"],
13 "outputs": ["{workspaceRoot}/{projectRoot}"]
14 },
15 "build": {
16 "inputs": ["prod"],
17 "outputs": ["{workspaceRoot}/{projectRoot}"],
18 "cache": true
19 }
20 }
21}
22
Note that the inputs and outputs are specified on both the @nx/js:tsc
and build
default configurations. This is required, as when reading target defaults Nx will only ever look at one key. If there is a default configuration based on the executor used, it will be read first. If not, Nx will fall back to looking at the configuration based on target name. For instance, running nx build project
will read the options from targetDefaults[@nx/js:tsc]
if the target configuration for build
uses the @nx/js:tsc executor
. It would not read any of the configuration from the build
target default configuration unless the executor does not match.
Cache
In Nx 17 and higher, caching is configured by specifying "cache": true
in a target's configuration. This will tell Nx that it's ok to cache the results of a given target. For instance, if you have a target that runs tests, you can specify "cache": true
in the target default configuration for test
and Nx will cache the results of running tests.
1{
2 "targetDefaults": {
3 "test": {
4 "cache": true
5 }
6 }
7}
8
If you are using distributed task execution and disable caching for a given target, you will not be able to use distributed task execution for that target. This is because distributed task execution requires caching to be enabled. This means that the target you have disabled caching for, and any targets which depend on that target will fail the pipeline if you try to run them with Nx Agents enabled.
Executor/command options
You can configure options specific to a target's executor. As an example, if your repo has projects using the @nx/js:tsc
executor, you can provide some default options as follows:
1{
2 "targetDefaults": {
3 "@nx/js:tsc": {
4 "options": {
5 "generateExportsField": true
6 }
7 }
8 }
9}
10
You can also provide defaults for inferred targets or targets running a command using the nx:run-commands
executor. As an example, if your repo has projects where all the build
targets run the same vite build
command, you can provide some default options as follows:
1{
2 "targetDefaults": {
3 "build": {
4 "options": {
5 "assetsInlineLimit": 2048,
6 "assetsDir": "static/assets"
7 }
8 }
9 }
10}
11
If multiple targets with the same name run different commands (or use different executors), do not set options in targetDefaults
. Different commands would accept different options, and the target defaults will apply to all targets with the same name regardless of the command they run. If you were to provide options in targetDefaults
for them, the commands that don't expect those options could throw an error.
For more details on how to pass args to the underlying command see the Pass Args to Commands recipe.
Task Atomizer Configuration
Task Atomizer plugins create several targets with a similar pattern. For example, the @nx/cypress
plugin creates a top level e2e-ci
target and a target for each test file that looks like e2e-ci--test/my/test.spec.ts
. To avoid having to write a target default for each of these targets, you can use a glob pattern in the target default key.
1{
2 "targetDefaults": {
3 "e2e-ci--**/*": {
4 "options": {
5 "headless": true
6 }
7 }
8 }
9}
10
Nx uses glob patterns for matching against the target name. This means that the **/*
pattern above is required because the target name contains a /
. If your target name does not contain a /
, you can use a simpler pattern like e2e-ci-*
.
Release
The release
property in nx.json
configures the nx release
command. It is an optional property, as nx release
is capable of working with zero config, but when present it is used to configure the versioning, changelog, and publishing phases of the release process.
For more information on how nx release
works, see manage releases.
The full list of configuration options available for "release"
can be found here: https://github.com/nrwl/nx/blob/master/packages/nx/src/config/nx-json.ts under NxReleaseConfiguration
.
Projects
If you want to limit the projects that nx release
targets, you can use the projects
property in nx.json
to do so. This property is either a string, or an array of strings. The strings can be project names, glob patterns, directories, tag references or anything else that is supported by the --projects
filter you may know from other commands such as nx run
.
1{
2 "release": {
3 // Here we are configuring nx release to target all projects
4 // except the one called "ignore-me"
5 "projects": ["*", "!ignore-me"]
6 }
7}
8
Projects Relationship
The projectsRelationship
property tells Nx whether to release projects independently or together. By default Nx will release all your projects together in lock step, which is an equivalent of "projectRelationships": "fixed"
. If you want to release projects independently, you can set "projectsRelationship": "independent"
.
1{
2 "release": {
3 // Here we are configuring nx release to release projects
4 // independently, as opposed to the default of "fixed"
5 "projectsRelationship": "independent"
6 }
7}
8
Release Tag Pattern
Optionally override the git/release tag pattern to use. This field is the source of truth for changelog generation and release tagging, as well as for conventional commits parsing.
It supports interpolating the version as {version}
and (if releasing independently or forcing project level version control system releases) the project name as {projectName}
within the string. When using release groups in which the member projects are versioned together, you can also leverage {releaseGroupName}
and it will be interpolated appropriately in the commit/tag that gets created for that release group.
The default "releaseTagPattern"
for fixed/unified releases is: v{version}
The default "releaseTagPattern"
for independent releases at the project level is: {projectName}@{version}
1{
2 "release": {
3 // Here we are configuring nx release to use a custom release
4 // tag pattern (we have dropped the v prefix from the default)
5 "releaseTagPattern": "{version}"
6 }
7}
8
Version
The version
property configures the versioning phase of the release process. It is used to determine the next version of your projects, and update any projects that depend on them to use the new version.
Behind the scenes, the version
logic is powered by an Nx generator. Out of the box Nx wires up the most widely applicable generator implementation for you, which is @nx/js:release-version
provided by the @nx/js
plugin.
It is therefore a common requirement to be able to tweak the options given to that generator. This can be done by configuring the release.version.generatorOptions
property in nx.json
:
1{
2 "release": {
3 "version": {
4 "generatorOptions": {
5 // Here we are configuring the generator to use git tags as the
6 // source of truth for a project's current version
7 "currentVersionResolver": "git-tag",
8 // Here we are configuring the generator to use conventional
9 // commits as the source of truth for how to determine the
10 // relevant version bump for the next version
11 "specifierSource": "conventional-commits"
12 }
13 }
14 }
15}
16
For a full reference of the available options for the @nx/js:release-version
generator, see the release version generator reference.
Changelog
The changelog
property configures the changelog phase of the release process. It is used to generate a changelog for your projects, and commit it to your repository.
There are two types of possible changelog that can be generated:
Workspace Changelog: A changelog that contains all changes across all projects in your workspace. This is not applicable when releasing projects independently.
Project Changelogs: A changelog that contains all changes for a given project.
The changelog
property is used to configure both of these changelogs.
Workspace Changelog
The changelog.workspaceChangelog
property configures the workspace changelog. It is used to determine if and how the workspace changelog is generated.
1{
2 "release": {
3 "changelog": {
4 // This disables the workspace changelog
5 "workspaceChangelog": false
6 }
7 }
8}
9
1{
2 "release": {
3 "changelog": {
4 "workspaceChangelog": {
5 // This will create a GitHub release containing the workspace
6 // changelog contents
7 "createRelease": "github",
8 // This will disable creating a workspace CHANGELOG.md file
9 "file": false
10 }
11 }
12 }
13}
14
Project Changelogs
The changelog.projectChangelogs
property configures the project changelogs. It is used to determine if and how the project changelogs are generated.
1{
2 "release": {
3 "changelog": {
4 // This enables project changelogs with the default options
5 "projectChangelogs": true
6 }
7 }
8}
9
1{
2 "release": {
3 "changelog": {
4 "projectChangelogs": {
5 // This will create one GitHub release per project containing
6 // the project changelog contents
7 "createRelease": "github",
8 // This will disable creating any project level CHANGELOG.md
9 // files
10 "file": false
11 }
12 }
13 }
14}
15
Git
The git
property configures the automated git operations that take place as part of the release process.
1{
2 "release": {
3 "git": {
4 // This will enable committing any changes (e.g. package.json
5 // updates, CHANGELOG.md files) to git
6 "commit": true,
7 // This will enable create a git for the overall release, or
8 // one tag per project for independent project releases
9 "tag": false
10 }
11 }
12}
13
Generators
Default generator options can be configured in nx.json
. For instance, the following tells Nx to always pass --buildable=true
when creating new libraries with the @nx/js
plugin.
1{
2 "generators": {
3 "@nx/js:library": {
4 "buildable": true
5 }
6 }
7}
8
Extends
Some presets use the extends
property to hide some default options in a separate json file. The json file specified in the extends
property is located in your node_modules
folder. The Nx preset files are specified in the nx
package.
Nx Cloud
There are also options for Nx Cloud that are set in the nx.json
file. For instance, you authenticate with the Nx Cloud service using an nxCloudAccessToken
like this:
1{
2 "nxCloudAccessToken": "SOMETOKEN"
3}
4
For more details on configuring Nx Cloud, see the Nx Cloud Configuration Options page.