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Alex Rickabaugh ed7aa1c3e5 fix(ivy): force new imports for .d.ts files (#25080) 
When ngtsc encounters a reference to a type (for example, a Component
type listed in an NgModule declarations array), it traces the import
of that type and attempts to determine the best way to refer to it.

In the event the type is defined in the same file where a reference
is being generated, the identifier of the type is used. If the type
was imported, ngtsc has a choice. It can use the identifier from the
original import, or it can write a new import to the module where the
type came from.

ngtsc has a bug currently when it elects to rely on the user's import.
When writing a .d.ts file, the user's import may have been elided as
the type was not referred to from the type side of the program. Thus,
in .d.ts files ngtsc must always assume the import may not exist, and
generate a new one.

In .js output the import is guaranteed to still exist, so it's
preferable for ngtsc to continue using the existing import if one is
available.

This commit changes how @angular/compiler writes type definitions, and
allows it to use a different expression to write a type definition than
is used to write the value. This allows ngtsc to specify that types in
type definitions should always be imported. A corresponding change to
the staticallyResolve() Reference system allows the choice of which
type of import to use when generating an Expression from a Reference.

PR Close #25080
 		2018-07-26 16:38:09 -07:00
..
integrationtest build: upgrade jasmine (and related typings) to latest version (#19904) 2018-07-06 13:48:02 -07:00
src fix(ivy): force new imports for .d.ts files (#25080) 2018-07-26 16:38:09 -07:00
test fix(ivy): force new imports for .d.ts files (#25080) 2018-07-26 16:38:09 -07:00
BUILD.bazel build(ivy): enable ngtsc AOT builds for a few packages (#24738) 2018-07-12 16:36:35 -04:00
README.md build: remove references to `tsc-wrapped` (#19298) 2017-09-21 13:55:52 -07:00
browser-rollup.config.js refactor: make all rollup config ES5 compatible (#20028) 2017-10-30 23:09:17 -04:00
index.ts fix(compiler-cli): don't report emit diagnostics when --noEmitOnError is off (#20063) 2017-11-02 14:49:38 -07:00
ngtools2.ts refactor(compiler-cli): expose ngtools api separately (#18978) 2017-08-31 14:37:13 -07:00
package.json feat: typescript 2.9 support (#24652) 2018-07-03 13:32:06 -07:00
tsconfig-build.json fix(bazel): ng_package should include private exports in fesms (#23054) 2018-03-29 14:11:12 -07:00
tsconfig-tools.json build: remove references to `tsc-wrapped` (#19298) 2017-09-21 13:55:52 -07:00
tsconfig.json build(compiler-cli): fix tsconfig.json circularity issue (#22722) 2018-03-15 21:18:07 -07:00

README.md

Angular Template Compiler

Angular applications are built with templates, which may be .html or .css files, or may be inline template attributes on Decorators like @Component.

These templates are compiled into executable JS at application runtime (except in interpretation mode). This compilation can occur on the client, but it results in slower bootstrap time, and also requires that the compiler be included in the code downloaded to the client.

You can produce smaller, faster applications by running Angular's compiler as a build step, and then downloading only the executable JS to the client.

Install and use

# First install angular, see https://github.com/angular/angular/blob/master/CHANGELOG.md#200-rc0-2016-05-02
$ npm install @angular/compiler-cli typescript@next @angular/platform-server @angular/compiler
# Optional sanity check, make sure TypeScript can compile.
$ ./node_modules/.bin/tsc -p path/to/project
# ngc is a drop-in replacement for tsc.
$ ./node_modules/.bin/ngc -p path/to/project

In order to write a bootstrap that imports the generated code, you should first write your top-level component, and run ngc once to produce a generated .ngfactory.ts file. Then you can add an import statement in the bootstrap allowing you to bootstrap off the generated code:

main.module.ts
-------------
import {BrowserModule} from '@angular/platform-browser';
import {Component, NgModule, ApplicationRef} from '@angular/core';

@Component(...)
export class MyComponent {}

@NgModule({
  imports: [BrowserModule],
  declarations: [MyComponent],
  entryComponents: [MyComponent]
})
export class MainModule {
  constructor(appRef: ApplicationRef) {
    appRef.bootstrap(MyComponent);
  }
}

bootstrap.ts
-------------

import {MainModuleNgFactory} from './main.module.ngfactory';
import {platformBrowser} from '@angular/platform-browser';

platformBrowser().bootstrapModuleFactory(MainModuleNgFactory);

Configuration

The tsconfig.json file may contain an additional configuration block:

 "angularCompilerOptions": {
   "genDir": ".",
   "debug": true
 }

genDir

the genDir option controls the path (relative to tsconfig.json) where the generated file tree will be written. If genDir is not set, then the code will be generated in the source tree, next to your original sources. More options may be added as we implement more features.

We recommend you avoid checking generated files into version control. This permits a state where the generated files in the repository were created from sources that were never checked in, making it impossible to reproduce the current state. Also, your changes will effectively appear twice in code reviews, with the generated version inscrutible by the reviewer.

In TypeScript 1.8, the generated sources will have to be written alongside your originals, so set genDir to the same location as your files (typicially the same as rootDir). Add **/*.ngfactory.ts and **/*.ngsummary.json to your .gitignore or other mechanism for your version control system.

In TypeScript 1.9 and above, you can add a generated folder into your application, such as codegen. Using the rootDirs option, you can allow relative imports like import {} from './foo.ngfactory' even though the src and codegen trees are distinct. Add **/codegen to your .gitignore or similar.

Note that in the second option, TypeScript will emit the code into two parallel directories as well. This is by design, see https://github.com/Microsoft/TypeScript/issues/8245. This makes the configuration of your runtime module loader more complex, so we don't recommend this option yet.

debug

Set the debug option to true to generate debug information in the generate files. Default to false.

See the example in the test/ directory for a working example.

Compiler CLI

This program mimics the TypeScript tsc command line. It accepts a -p flag which points to a tsconfig.json file, or a directory containing one.

This CLI is intended for demos, prototyping, or for users with simple build systems that run bare tsc.

Users with a build system should expect an Angular template plugin. Such a plugin would be based on the public_api.ts in this directory, but should share the TypeScript compiler instance with the one already used in the plugin for TypeScript typechecking and emit.

Design

At a high level, this program

  • collects static metadata about the sources
  • uses the OfflineCompiler from @angular/compiler to codegen additional .ts files
  • these .ts files are written to the genDir path, then compiled together with the application.

For developers

# Build Angular and the compiler
./build.sh

# Run the test once
# (First edit the LINKABLE_PKGS to use npm link instead of npm install)
$ ./scripts/ci/offline_compiler_test.sh

# Keep a package fresh in watch mode
./node_modules/.bin/tsc -p packages/compiler/tsconfig-build.json -w

# Recompile @angular/core module (needs to use tsc-ext to keep the metadata)
$ export NODE_PATH=${NODE_PATH}:$(pwd)/dist/all:$(pwd)/dist/tools
$ node dist/tools/@angular/compiler-cli/src/main -p packages/core/tsconfig-build.json

# Iterate on the test
$ cd /tmp/wherever/e2e_test.1464388257/
$ ./node_modules/.bin/ngc
$ ./node_modules/.bin/jasmine test/*_spec.js