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denoland-deno/tools/ts_library_builder
2018-10-22 19:37:38 -07:00
..
testdata Replace globals.d.ts with lib.deno_runtime.d.ts 2018-10-11 20:29:43 -04:00
ast_util.ts Improve globals for runtime type library 2018-10-22 19:37:38 -07:00
build_library.ts Improve globals for runtime type library 2018-10-22 19:37:38 -07:00
main.ts Replace globals.d.ts with lib.deno_runtime.d.ts 2018-10-11 20:29:43 -04:00
README.md Replace globals.d.ts with lib.deno_runtime.d.ts 2018-10-11 20:29:43 -04:00
test.ts Improve globals for runtime type library 2018-10-22 19:37:38 -07:00
tsconfig.json Replace globals.d.ts with lib.deno_runtime.d.ts 2018-10-11 20:29:43 -04:00

ts_library_builder

This tool allows us to produce a single TypeScript declaration file that describes the complete Deno runtime, including global variables and the built-in deno module. The output of this tool, lib.deno_runtime.d.ts, serves several purposes:

  1. It is passed to the TypeScript compiler js/compiler.ts, so that TypeScript knows what types to expect and can validate code against the runtime environment.
  2. It is outputted to stdout by deno --types, so that users can easily have access to the complete declaration file. Editors can use this in the future to perform type checking.
  3. Because JSDocs are maintained, this serves as a simple documentation page for Deno. We will use this file to generate HTML docs in the future.

The tool depends upon a couple libraries:

  • ts-node to provide just in time transpiling of TypeScript for the tool itself.
  • ts-simple-ast which provides a more rational and functional interface to the TypeScript AST to make manipulations easier.
  • prettier and @types/prettier to format the output.

Design

Ideally we wouldn't have to build this tool at all, and could simply use tsc to output this declaration file. While, --emitDeclarationsOnly, --outFile and --module AMD generates a single declaration file, it isn't clean. It was never designed for a library generation, where what is available in a runtime environment significantly differs from the code that creates that environment's structure.

Therefore this tool injects some of the knowledge of what occurs in the Deno runtime environment as well as ensures that the output file is more clean and logical for an end user. In the deno runtime, code runs in a global scope that is defined in js/global.ts. This contains global scope items that one reasonably expects in a JavaScript runtime, like console. It also defines the global scope on a self-reflective window variable. There is currently only one module of Deno specific APIs which is available to the user. This is defined in js/deno.ts.

This tool takes advantage of an experimental feature of TypeScript that items that are not really intended to be part of the public API are marked with a comment pragma of @internal and then are not emitted when generating type definitions. In addition TypeScript will tree-shake any dependencies tied to that "hidden" API and elide them as well. This really helps keep the public API clean and as minimal as needed.

In order to create the default type library, the process at a high-level looks like this:

  • We read in all of the runtime environment definition code into TypeScript AST parser "project".
  • We emit the TypeScript type definitions only into another AST parser "project".
  • We process the deno namespace/module, by "flattening" the type definition file.
    • We determine the exported symbols for js/deno.ts.
    • We create a custom extraction of the gen/msg_generated.ts which is generated during the build process and contains the type information related to flatbuffer structures that communicate between the privileged part of deno and the user land. Currently, the tool doesn't do full complex dependency analysis to be able to determine what is required out of this file, so we explicitly extract the type information we need.
    • We recurse over all imports/exports of the modules, only exporting those symbols which are finally exported by js/deno.ts.
    • We replace the import/export with the type information from the source file.
    • This process assumes that all the modules that feed js/deno.ts will have a public type API that does not have name conflicts.
  • We process the js/globals.ts file to generate the global namespace.
    • Currently we create a "globals" module which will contain the type definitions.
    • We create a Window interface and a global scope augmentation namespace.
    • We iterate over augmentations to the window variable declared in the file, extract the type information and apply it to both a global variable declaration and a property on the Window interface.
  • We take each namespace import to js/globals.ts, we resolve the emitted declaration .d.ts file and create it as its own namespace withing the "globals" module. It is unsafe to just flatten these, because there is a high risk of collisions, but also, it makes authoring the types easier within the generated interface and variable declarations.
  • We then validate the resulting definition file and write it out to the appropriate build path.

TODO

  • The tool does not tree-shake when flattening imports. This means there are extraneous types that get included that are not really needed and it means that gen/msg_generated.ts has to be explicitly carved down.
  • Complete the tests... we have some coverage, but not a lot of what is in ast_util_test which is being tested implicitly.