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Using Environment Instances

Experimental

Environment API is experimental. We'll keep the APIs stable during Vite 6 to let the ecosystem experiment and build on top of it. We're planning to stabilize these new APIs with potential breaking changes in Vite 7.

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Accessing the Environments

During dev, the available environments in a dev server can be accessed using server.environments:

js
// create the server, or get it from the configureServer hook
const server = await createServer(/* options */)

const environment = server.environments.client
environment.transformRequest(url)
console.log(server.environments.ssr.moduleGraph)

You can also access the current environment from plugins. See the Environment API for Plugins for more details.

DevEnvironment class

During dev, each environment is an instance of the DevEnvironment class:

ts
class DevEnvironment {
  /**
   * Unique identifier for the environment in a Vite server.
   * By default Vite exposes 'client' and 'ssr' environments.
   */
  name: string
  /**
   * Communication channel to send and receive messages from the
   * associated module runner in the target runtime.
   */
  hot: NormalizedHotChannel
  /**
   * Graph of module nodes, with the imported relationship between
   * processed modules and the cached result of the processed code.
   */
  moduleGraph: EnvironmentModuleGraph
  /**
   * Resolved plugins for this environment, including the ones
   * created using the per-environment `create` hook
   */
  plugins: Plugin[]
  /**
   * Allows to resolve, load, and transform code through the
   * environment plugins pipeline
   */
  pluginContainer: EnvironmentPluginContainer
  /**
   * Resolved config options for this environment. Options at the server
   * global scope are taken as defaults for all environments, and can
   * be overridden (resolve conditions, external, optimizedDeps)
   */
  config: ResolvedConfig & ResolvedDevEnvironmentOptions

  constructor(
    name: string,
    config: ResolvedConfig,
    context: DevEnvironmentContext,
  )

  /**
   * Resolve the URL to an id, load it, and process the code using the
   * plugins pipeline. The module graph is also updated.
   */
  async transformRequest(url: string): Promise<TransformResult | null>

  /**
   * Register a request to be processed with low priority. This is useful
   * to avoid waterfalls. The Vite server has information about the
   * imported modules by other requests, so it can warmup the module graph
   * so the modules are already processed when they are requested.
   */
  async warmupRequest(url: string): Promise<void>
}

With DevEnvironmentContext being:

ts
interface DevEnvironmentContext {
  hot: boolean
  transport?: HotChannel | WebSocketServer
  options?: EnvironmentOptions
  remoteRunner?: {
    inlineSourceMap?: boolean
  }
  depsOptimizer?: DepsOptimizer
}

and with TransformResult being:

ts
interface TransformResult {
  code: string
  map: SourceMap | { mappings: '' } | null
  etag?: string
  deps?: string[]
  dynamicDeps?: string[]
}

An environment instance in the Vite server lets you process a URL using the environment.transformRequest(url) method. This function will use the plugin pipeline to resolve the url to a module id, load it (reading the file from the file system or through a plugin that implements a virtual module), and then transform the code. While transforming the module, imports and other metadata will be recorded in the environment module graph by creating or updating the corresponding module node. When processing is done, the transform result is also stored in the module.

transformRequest naming

We are using transformRequest(url) and warmupRequest(url) in the current version of this proposal so it is easier to discuss and understand for users used to Vite's current API. Before releasing, we can take the opportunity to review these names too. For example, it could be named environment.processModule(url) or environment.loadModule(url) taking a page from Rollup's context.load(id) in plugin hooks. For the moment, we think keeping the current names and delaying this discussion is better.

Separate Module Graphs

Each environment has an isolated module graph. All module graphs have the same signature, so generic algorithms can be implemented to crawl or query the graph without depending on the environment. hotUpdate is a good example. When a file is modified, the module graph of each environment will be used to discover the affected modules and perform HMR for each environment independently.

INFO

Vite v5 had a mixed Client and SSR module graph. Given an unprocessed or invalidated node, it isn't possible to know if it corresponds to the Client, SSR, or both environments. Module nodes have some properties prefixed, like clientImportedModules and ssrImportedModules (and importedModules that returns the union of both). importers contains all importers from both the Client and SSR environment for each module node. A module node also has transformResult and ssrTransformResult. A backward compatibility layer allows the ecosystem to migrate from the deprecated server.moduleGraph.

Each module is represented by a EnvironmentModuleNode instance. Modules may be registered in the graph without yet being processed (transformResult would be null in that case). importers and importedModules are also updated after the module is processed.

ts
class EnvironmentModuleNode {
  environment: string

  url: string
  id: string | null = null
  file: string | null = null

  type: 'js' | 'css'

  importers = new Set<EnvironmentModuleNode>()
  importedModules = new Set<EnvironmentModuleNode>()
  importedBindings: Map<string, Set<string>> | null = null

  info?: ModuleInfo
  meta?: Record<string, any>
  transformResult: TransformResult | null = null

  acceptedHmrDeps = new Set<EnvironmentModuleNode>()
  acceptedHmrExports: Set<string> | null = null
  isSelfAccepting?: boolean
  lastHMRTimestamp = 0
  lastInvalidationTimestamp = 0
}

environment.moduleGraph is an instance of EnvironmentModuleGraph:

ts
export class EnvironmentModuleGraph {
  environment: string

  urlToModuleMap = new Map<string, EnvironmentModuleNode>()
  idToModuleMap = new Map<string, EnvironmentModuleNode>()
  etagToModuleMap = new Map<string, EnvironmentModuleNode>()
  fileToModulesMap = new Map<string, Set<EnvironmentModuleNode>>()

  constructor(
    environment: string,
    resolveId: (url: string) => Promise<PartialResolvedId | null>,
  )

  async getModuleByUrl(
    rawUrl: string,
  ): Promise<EnvironmentModuleNode | undefined>

  getModuleById(id: string): EnvironmentModuleNode | undefined

  getModulesByFile(file: string): Set<EnvironmentModuleNode> | undefined

  onFileChange(file: string): void

  onFileDelete(file: string): void

  invalidateModule(
    mod: EnvironmentModuleNode,
    seen: Set<EnvironmentModuleNode> = new Set(),
    timestamp: number = Date.now(),
    isHmr: boolean = false,
  ): void

  invalidateAll(): void

  async ensureEntryFromUrl(
    rawUrl: string,
    setIsSelfAccepting = true,
  ): Promise<EnvironmentModuleNode>

  createFileOnlyEntry(file: string): EnvironmentModuleNode

  async resolveUrl(url: string): Promise<ResolvedUrl>

  updateModuleTransformResult(
    mod: EnvironmentModuleNode,
    result: TransformResult | null,
  ): void

  getModuleByEtag(etag: string): EnvironmentModuleNode | undefined
}

Released under the MIT License. (dev)