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angular-cn/packages/compiler-cli/ngcc/test/rendering/renderer_spec.ts

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feat(ivy): implement esm2015 and esm5 ngcc file renderers (#24897) PR Close #24897
2018-07-16 05:23:37 -04:00
/**
* @license
* Copyright Google Inc. All Rights Reserved.
*
* Use of this source code is governed by an MIT-style license that can be
* found in the LICENSE file at https://angular.io/license
*/
fix(ngcc): do not emit ES2015 code in ES5 files (#33514) Previously, ngcc's `Renderer` would add some constants in the processed files which were emitted as ES2015 code (e.g. `const` declarations). This would result in invalid ES5 generated code that would break when run on browsers that do not support the emitted format. This commit fixes it by adding a `printStatement()` method to `RenderingFormatter`, which can convert statements to JavaScript code in a suitable format for the corresponding `RenderingFormatter`. Additionally, the `translateExpression()` and `translateStatement()` ngtsc helper methods are augmented to accept an extra hint to know whether the code needs to be translated to ES5 format or not. Fixes #32665 PR Close #33514
2019-11-04 12:29:01 -05:00
import {Statement} from '@angular/compiler';
feat(ivy): implement esm2015 and esm5 ngcc file renderers (#24897) PR Close #24897
2018-07-16 05:23:37 -04:00
import MagicString from 'magic-string';
refactor(ivy): ngcc - encapsulate variables into "bundles" (#26906) There are a number of variables that need to be passed around the program, in particular to the renderers, which benefit from being stored in well defined objects. The new `EntryPointBundle` structure is a specific format of an entry-point and contains the compiled `BundleProgram` objects for the source and typings, if appropriate. This change helps with future refactoring, where we may need to add new properties to this object. It allows us to maintain more stable APIs between the constituent parts of ngcc, rather than passing lots of primitive values around throughout the program. PR Close #26906
2018-11-25 16:40:25 -05:00
import * as ts from 'typescript';
refactor(ivy): implement a virtual file-system layer in ngtsc + ngcc (#30921) To improve cross platform support, all file access (and path manipulation) is now done through a well known interface (`FileSystem`). For testing a number of `MockFileSystem` implementations are provided. These provide an in-memory file-system which emulates operating systems like OS/X, Unix and Windows. The current file system is always available via the static method, `FileSystem.getFileSystem()`. This is also used by a number of static methods on `AbsoluteFsPath` and `PathSegment`, to avoid having to pass `FileSystem` objects around all the time. The result of this is that one must be careful to ensure that the file-system has been initialized before using any of these static methods. To prevent this happening accidentally the current file system always starts out as an instance of `InvalidFileSystem`, which will throw an error if any of its methods are called. You can set the current file-system by calling `FileSystem.setFileSystem()`. During testing you can call the helper function `initMockFileSystem(os)` which takes a string name of the OS to emulate, and will also monkey-patch aspects of the TypeScript library to ensure that TS is also using the current file-system. Finally there is the `NgtscCompilerHost` to be used for any TypeScript compilation, which uses a given file-system. All tests that interact with the file-system should be tested against each of the mock file-systems. A series of helpers have been provided to support such tests: * `runInEachFileSystem()` - wrap your tests in this helper to run all the wrapped tests in each of the mock file-systems. * `addTestFilesToFileSystem()` - use this to add files and their contents to the mock file system for testing. * `loadTestFilesFromDisk()` - use this to load a mirror image of files on disk into the in-memory mock file-system. * `loadFakeCore()` - use this to load a fake version of `@angular/core` into the mock file-system. All ngcc and ngtsc source and tests now use this virtual file-system setup. PR Close #30921
2019-06-06 15:22:32 -04:00
import {fromObject, generateMapFileComment, SourceMapConverter} from 'convert-source-map';
import {absoluteFrom, getFileSystem} from '../../../src/ngtsc/file_system';
import {TestFile, runInEachFileSystem} from '../../../src/ngtsc/file_system/testing';
fix(ngcc): do not emit ES2015 code in ES5 files (#33514) Previously, ngcc's `Renderer` would add some constants in the processed files which were emitted as ES2015 code (e.g. `const` declarations). This would result in invalid ES5 generated code that would break when run on browsers that do not support the emitted format. This commit fixes it by adding a `printStatement()` method to `RenderingFormatter`, which can convert statements to JavaScript code in a suitable format for the corresponding `RenderingFormatter`. Additionally, the `translateExpression()` and `translateStatement()` ngtsc helper methods are augmented to accept an extra hint to know whether the code needs to be translated to ES5 format or not. Fixes #32665 PR Close #33514
2019-11-04 12:29:01 -05:00
import {NOOP_DEFAULT_IMPORT_RECORDER, Reexport} from '../../../src/ngtsc/imports';
refactor(ivy): implement a virtual file-system layer in ngtsc + ngcc (#30921) To improve cross platform support, all file access (and path manipulation) is now done through a well known interface (`FileSystem`). For testing a number of `MockFileSystem` implementations are provided. These provide an in-memory file-system which emulates operating systems like OS/X, Unix and Windows. The current file system is always available via the static method, `FileSystem.getFileSystem()`. This is also used by a number of static methods on `AbsoluteFsPath` and `PathSegment`, to avoid having to pass `FileSystem` objects around all the time. The result of this is that one must be careful to ensure that the file-system has been initialized before using any of these static methods. To prevent this happening accidentally the current file system always starts out as an instance of `InvalidFileSystem`, which will throw an error if any of its methods are called. You can set the current file-system by calling `FileSystem.setFileSystem()`. During testing you can call the helper function `initMockFileSystem(os)` which takes a string name of the OS to emulate, and will also monkey-patch aspects of the TypeScript library to ensure that TS is also using the current file-system. Finally there is the `NgtscCompilerHost` to be used for any TypeScript compilation, which uses a given file-system. All tests that interact with the file-system should be tested against each of the mock file-systems. A series of helpers have been provided to support such tests: * `runInEachFileSystem()` - wrap your tests in this helper to run all the wrapped tests in each of the mock file-systems. * `addTestFilesToFileSystem()` - use this to add files and their contents to the mock file system for testing. * `loadTestFilesFromDisk()` - use this to load a mirror image of files on disk into the in-memory mock file-system. * `loadFakeCore()` - use this to load a fake version of `@angular/core` into the mock file-system. All ngcc and ngtsc source and tests now use this virtual file-system setup. PR Close #30921
2019-06-06 15:22:32 -04:00
import {loadTestFiles} from '../../../test/helpers';
fix(ngcc): do not emit ES2015 code in ES5 files (#33514) Previously, ngcc's `Renderer` would add some constants in the processed files which were emitted as ES2015 code (e.g. `const` declarations). This would result in invalid ES5 generated code that would break when run on browsers that do not support the emitted format. This commit fixes it by adding a `printStatement()` method to `RenderingFormatter`, which can convert statements to JavaScript code in a suitable format for the corresponding `RenderingFormatter`. Additionally, the `translateExpression()` and `translateStatement()` ngtsc helper methods are augmented to accept an extra hint to know whether the code needs to be translated to ES5 format or not. Fixes #32665 PR Close #33514
2019-11-04 12:29:01 -05:00
import {Import, ImportManager, translateStatement} from '../../../src/ngtsc/translator';
refactor(ivy): ngcc - move decorator analysis types into their own file (#31544) PR Close #31544
2019-07-18 16:05:32 -04:00
import {DecorationAnalyzer} from '../../src/analysis/decoration_analyzer';
import {CompiledClass} from '../../src/analysis/types';
feat(ivy): register references from NgModule annotations (#26906) The `NgModuleDecoratorHandler` can now register all the references that it finds in the `NgModule` metadata, such as `declarations`, `imports`, `exports` etc. This information can then be used by ngcc to work out if any of these references are internal only and need to be manually exported from a library's entry-point. PR Close #26906
2018-11-13 09:40:54 -05:00
import {NgccReferencesRegistry} from '../../src/analysis/ngcc_references_registry';
fix(ivy): ngcc - separate typings rendering from src rendering (#25445) Previously the same `Renderer` was used to render typings (.d.ts) files. But the new `UmdRenderer` is not able to render typings files correctly. This commit splits out the typings rendering from the src rendering. To achieve this the previous renderers have been refactored from sub-classes of the abstract `Renderer` class to classes that implement the `RenderingFormatter` interface, which are then passed to the `Renderer` and `DtsRenderer` to modify its rendering behaviour. Along the way a few utility interfaces and classes have been moved around and renamed for clarity. PR Close #25445
2019-04-28 15:48:35 -04:00
import {ModuleWithProvidersInfo} from '../../src/analysis/module_with_providers_analyzer';
feat(ivy): ngcc - implement `UmdRenderer` (#25445) PR Close #25445
2019-04-28 15:48:35 -04:00
import {PrivateDeclarationsAnalyzer, ExportInfo} from '../../src/analysis/private_declarations_analyzer';
refactor(ivy): ngcc - `Renderer` now manages d.ts transformation (#26082) PR Close #26082
2018-10-04 07:19:11 -04:00
import {SwitchMarkerAnalyzer} from '../../src/analysis/switch_marker_analyzer';
refactor(ivy): ngcc - recombine flat and non-flat `Esm2015ReflectionHost` (#26403) Going forward we need to be able to do the same work on both flat and non-flat module formats (such as computing arity and transforming .d.ts files) PR Close #26403
2018-10-10 09:17:32 -04:00
import {Esm2015ReflectionHost} from '../../src/host/esm2015_host';
fix(ngcc): render new definitions using the inner name of the class (#33533) When decorating classes with ivy definitions (e.g. `ɵfac` or `ɵdir`) the inner name of the class declaration must be used. This is because in ES5 the definitions are inside the class's IIFE where the outer declaration has not yet been initialized. PR Close #33533
2019-11-01 12:55:10 -04:00
import {Esm5ReflectionHost} from '../../src/host/esm5_host';
fix(ivy): ngcc - separate typings rendering from src rendering (#25445) Previously the same `Renderer` was used to render typings (.d.ts) files. But the new `UmdRenderer` is not able to render typings files correctly. This commit splits out the typings rendering from the src rendering. To achieve this the previous renderers have been refactored from sub-classes of the abstract `Renderer` class to classes that implement the `RenderingFormatter` interface, which are then passed to the `Renderer` and `DtsRenderer` to modify its rendering behaviour. Along the way a few utility interfaces and classes have been moved around and renamed for clarity. PR Close #25445
2019-04-28 15:48:35 -04:00
import {Renderer} from '../../src/rendering/renderer';
import {MockLogger} from '../helpers/mock_logger';
import {RenderingFormatter, RedundantDecoratorMap} from '../../src/rendering/rendering_formatter';
refactor(ivy): implement a virtual file-system layer in ngtsc + ngcc (#30921) To improve cross platform support, all file access (and path manipulation) is now done through a well known interface (`FileSystem`). For testing a number of `MockFileSystem` implementations are provided. These provide an in-memory file-system which emulates operating systems like OS/X, Unix and Windows. The current file system is always available via the static method, `FileSystem.getFileSystem()`. This is also used by a number of static methods on `AbsoluteFsPath` and `PathSegment`, to avoid having to pass `FileSystem` objects around all the time. The result of this is that one must be careful to ensure that the file-system has been initialized before using any of these static methods. To prevent this happening accidentally the current file system always starts out as an instance of `InvalidFileSystem`, which will throw an error if any of its methods are called. You can set the current file-system by calling `FileSystem.setFileSystem()`. During testing you can call the helper function `initMockFileSystem(os)` which takes a string name of the OS to emulate, and will also monkey-patch aspects of the TypeScript library to ensure that TS is also using the current file-system. Finally there is the `NgtscCompilerHost` to be used for any TypeScript compilation, which uses a given file-system. All tests that interact with the file-system should be tested against each of the mock file-systems. A series of helpers have been provided to support such tests: * `runInEachFileSystem()` - wrap your tests in this helper to run all the wrapped tests in each of the mock file-systems. * `addTestFilesToFileSystem()` - use this to add files and their contents to the mock file system for testing. * `loadTestFilesFromDisk()` - use this to load a mirror image of files on disk into the in-memory mock file-system. * `loadFakeCore()` - use this to load a fake version of `@angular/core` into the mock file-system. All ngcc and ngtsc source and tests now use this virtual file-system setup. PR Close #30921
2019-06-06 15:22:32 -04:00
import {makeTestEntryPointBundle, getRootFiles} from '../helpers/utils';
refactor(ivy): ngcc - implement abstract FileSystem (#29643) This commit introduces a new interface, which abstracts access to the underlying `FileSystem`. There is initially one concrete implementation, `NodeJsFileSystem`, which is simply wrapping the `fs` library of NodeJs. Going forward, we can provide a `MockFileSystem` for test, which should allow us to stop using `mock-fs` for most of the unit tests. We could also implement a `CachedFileSystem` that may improve the performance of ngcc. PR Close #29643
2019-04-28 15:47:57 -04:00
fix(ivy): ngcc - separate typings rendering from src rendering (#25445) Previously the same `Renderer` was used to render typings (.d.ts) files. But the new `UmdRenderer` is not able to render typings files correctly. This commit splits out the typings rendering from the src rendering. To achieve this the previous renderers have been refactored from sub-classes of the abstract `Renderer` class to classes that implement the `RenderingFormatter` interface, which are then passed to the `Renderer` and `DtsRenderer` to modify its rendering behaviour. Along the way a few utility interfaces and classes have been moved around and renamed for clarity. PR Close #25445
2019-04-28 15:48:35 -04:00
class TestRenderingFormatter implements RenderingFormatter {
fix(ngcc): do not emit ES2015 code in ES5 files (#33514) Previously, ngcc's `Renderer` would add some constants in the processed files which were emitted as ES2015 code (e.g. `const` declarations). This would result in invalid ES5 generated code that would break when run on browsers that do not support the emitted format. This commit fixes it by adding a `printStatement()` method to `RenderingFormatter`, which can convert statements to JavaScript code in a suitable format for the corresponding `RenderingFormatter`. Additionally, the `translateExpression()` and `translateStatement()` ngtsc helper methods are augmented to accept an extra hint to know whether the code needs to be translated to ES5 format or not. Fixes #32665 PR Close #33514
2019-11-04 12:29:01 -05:00
private printer = ts.createPrinter({newLine: ts.NewLineKind.LineFeed});
refactor(ivy): use a named type for ImportManager import structures (#25445) Previously we were using an anonymous type `{specifier: string; qualifier: string;}` throughout the code base. This commit gives this type a name and ensures it is only defined in one place. PR Close #25445
2019-04-28 15:48:33 -04:00
addImports(output: MagicString, imports: Import[], sf: ts.SourceFile) {
feat(ivy): implement esm2015 and esm5 ngcc file renderers (#24897) PR Close #24897
2018-07-16 05:23:37 -04:00
output.prepend('\n// ADD IMPORTS\n');
}
feat(ivy): ngcc - implement `UmdRenderer` (#25445) PR Close #25445
2019-04-28 15:48:35 -04:00
addExports(output: MagicString, baseEntryPointPath: string, exports: ExportInfo[]) {
feat(ivy): ngcc - render private declaration exports (#26906) Ngcc will now render additional exports for classes that are referenced in `NgModule` decorated classes, but which were not publicly exported from an entry-point of the package. This is important because when ngtsc compiles libraries processed by ngcc it needs to be able to publcly access decorated classes that are referenced by `NgModule` decorated classes in order to build templates that use these classes. Doing this re-exporting is not without its risks. There are chances that the class is not exported correctly: there may already be similarly named exports from the entry-point or the class may be being aliased. But there is not much more we can do from the point of view of ngcc to workaround such scenarios. Generally, packages should have been built so that this approach works. PR Close #26906
2018-11-25 17:07:51 -05:00
output.prepend('\n// ADD EXPORTS\n');
}
feat(ngcc): enable private NgModule re-exports in ngcc on request (#33177) This commit adapts the private NgModule re-export system (using aliasing) to ngcc. Not all ngcc compilations are compatible with these re-exports, as they assume a 1:1 correspondence between .js and .d.ts files. The primary concern here is supporting them for commonjs-only packages. PR Close #33177
2019-10-14 16:04:42 -04:00
addDirectExports(output: MagicString, exports: Reexport[]): void {
output.prepend('\n// ADD DIRECT EXPORTS\n');
}
fix(ivy): use a single constant pool per source file (#25392) Previously, ngtsc used a new ConstantPool for each decorator compilation. This could result in collisions between constants in the top-level scope. Now, ngtsc uses a single ConstantPool for each source file being compiled, and merges the constant statements into the file after the import section. PR Close #25392
2018-06-27 11:41:11 -04:00
addConstants(output: MagicString, constants: string, file: ts.SourceFile): void {
output.prepend('\n// ADD CONSTANTS\n');
}
fix(ivy): ngcc - fixes to support compiling Material library (#26403) 1) The `DecorationAnalyzer now analyzes all source files, rather than just the entry-point files, which fixes #26183. 2) The `DecoratorAnalyzer` now runs all the `handler.analyze()` calls across the whole entry-point *before* running `handler.compile()`. This ensures that dependencies between the decorated classes *within* an entry-point are known to the handlers when running the compile process. 3) The `Renderer` now does the transformation of the typings (.d.ts) files which allows us to support packages that only have flat format entry-points better, and is faster, since we won't parse `.d.ts` files twice. PR Close #26403
2018-10-16 03:56:54 -04:00
addDefinitions(output: MagicString, compiledClass: CompiledClass, definitions: string) {
feat(ivy): implement esm2015 and esm5 ngcc file renderers (#24897) PR Close #24897
2018-07-16 05:23:37 -04:00
output.prepend('\n// ADD DEFINITIONS\n');
}
fix(ngcc): render adjacent statements after static properties (#33630) See https://github.com/angular/angular/pull/33337#issuecomment-545487737 Fixes FW-1664 PR Close #33630
2019-11-06 12:03:56 -05:00
addAdjacentStatements(output: MagicString, compiledClass: CompiledClass, statements: string) {
output.prepend('\n// ADD ADJACENT STATEMENTS\n');
}
fix(ivy): prevent ngcc from inadvertently dropping Ivy definitions (#27159) A surprising interaction with the MagicString library caused inserted Ivy definitions to be dropped during the removal of decorators, iff all decorators on the class could be removed. In that case, the removal location corresponds with the exact location where Ivy definitions were inserted into. This commit moves the removal of decorators to occur before Ivy definitions are inserted. This effectively avoids the problem, as later inserted text fragments will be retained by MagicString. PR Close #27159
2018-11-18 15:37:30 -05:00
removeDecorators(output: MagicString, decoratorsToRemove: RedundantDecoratorMap) {
feat(ivy): implement esm2015 and esm5 ngcc file renderers (#24897) PR Close #24897
2018-07-16 05:23:37 -04:00
output.prepend('\n// REMOVE DECORATORS\n');
}
feat(ivy): implement `Renderer.getSwitchableDeclarations` (#25534) This supports the "ngcc ivy switch" specified in #25238. PR Close #25534
2018-08-17 02:50:45 -04:00
rewriteSwitchableDeclarations(output: MagicString, sourceFile: ts.SourceFile): void {
output.prepend('\n// REWRITTEN DECLARATIONS\n');
}
fix(ivy): ngcc - separate typings rendering from src rendering (#25445) Previously the same `Renderer` was used to render typings (.d.ts) files. But the new `UmdRenderer` is not able to render typings files correctly. This commit splits out the typings rendering from the src rendering. To achieve this the previous renderers have been refactored from sub-classes of the abstract `Renderer` class to classes that implement the `RenderingFormatter` interface, which are then passed to the `Renderer` and `DtsRenderer` to modify its rendering behaviour. Along the way a few utility interfaces and classes have been moved around and renamed for clarity. PR Close #25445
2019-04-28 15:48:35 -04:00
addModuleWithProvidersParams(
output: MagicString, moduleWithProviders: ModuleWithProvidersInfo[],
importManager: ImportManager): void {
output.prepend('\n// ADD MODUlE WITH PROVIDERS PARAMS\n');
}
fix(ngcc): do not emit ES2015 code in ES5 files (#33514) Previously, ngcc's `Renderer` would add some constants in the processed files which were emitted as ES2015 code (e.g. `const` declarations). This would result in invalid ES5 generated code that would break when run on browsers that do not support the emitted format. This commit fixes it by adding a `printStatement()` method to `RenderingFormatter`, which can convert statements to JavaScript code in a suitable format for the corresponding `RenderingFormatter`. Additionally, the `translateExpression()` and `translateStatement()` ngtsc helper methods are augmented to accept an extra hint to know whether the code needs to be translated to ES5 format or not. Fixes #32665 PR Close #33514
2019-11-04 12:29:01 -05:00
printStatement(stmt: Statement, sourceFile: ts.SourceFile, importManager: ImportManager): string {
const node = translateStatement(
stmt, importManager, NOOP_DEFAULT_IMPORT_RECORDER, ts.ScriptTarget.ES2015);
const code = this.printer.printNode(ts.EmitHint.Unspecified, node, sourceFile);
return `// TRANSPILED\n${code}`;
}
feat(ivy): implement esm2015 and esm5 ngcc file renderers (#24897) PR Close #24897
2018-07-16 05:23:37 -04:00
}
fix(ivy): prevent ngcc from referencing missing ɵsetClassMetadata (#27055) When ngtsc compiles @angular/core, it rewrites core imports to the r3_symbols.ts file that exposes all internal symbols under their external name. When creating the FESM bundle, the r3_symbols.ts file causes the external symbol names to be rewritten to their internal name. Under ngcc compilations of FESM bundles, the indirection of r3_symbols.ts is no longer in place such that the external names are retained in the bundle. Previously, the external name `ɵdefineNgModule` was explicitly declared internally to resolve this issue, but the recently added `setClassMetadata` was not declared as such, causing runtime errors. Instead of relying on the r3_symbols.ts file to perform the rewrite of the external modules to their internal variants, the translation is moved into the `ImportManager` during the compilation itself. This avoids the need for providing the external name manually. PR Close #27055
2018-11-11 13:16:04 -05:00
function createTestRenderer(
fix(ngcc): render new definitions using the inner name of the class (#33533) When decorating classes with ivy definitions (e.g. `ɵfac` or `ɵdir`) the inner name of the class declaration must be used. This is because in ES5 the definitions are inside the class's IIFE where the outer declaration has not yet been initialized. PR Close #33533
2019-11-01 12:55:10 -04:00
packageName: string, files: TestFile[], dtsFiles?: TestFile[], mappingFiles?: TestFile[],
isEs5 = false) {
feat(compiler-cli): ngcc - make logging more configurable (#29591) This allows CLI usage to filter excessive log messages and integrations like webpack plugins to provide their own logger. // FW-1198 PR Close #29591
2019-03-29 06:13:14 -04:00
const logger = new MockLogger();
refactor(ivy): implement a virtual file-system layer in ngtsc + ngcc (#30921) To improve cross platform support, all file access (and path manipulation) is now done through a well known interface (`FileSystem`). For testing a number of `MockFileSystem` implementations are provided. These provide an in-memory file-system which emulates operating systems like OS/X, Unix and Windows. The current file system is always available via the static method, `FileSystem.getFileSystem()`. This is also used by a number of static methods on `AbsoluteFsPath` and `PathSegment`, to avoid having to pass `FileSystem` objects around all the time. The result of this is that one must be careful to ensure that the file-system has been initialized before using any of these static methods. To prevent this happening accidentally the current file system always starts out as an instance of `InvalidFileSystem`, which will throw an error if any of its methods are called. You can set the current file-system by calling `FileSystem.setFileSystem()`. During testing you can call the helper function `initMockFileSystem(os)` which takes a string name of the OS to emulate, and will also monkey-patch aspects of the TypeScript library to ensure that TS is also using the current file-system. Finally there is the `NgtscCompilerHost` to be used for any TypeScript compilation, which uses a given file-system. All tests that interact with the file-system should be tested against each of the mock file-systems. A series of helpers have been provided to support such tests: * `runInEachFileSystem()` - wrap your tests in this helper to run all the wrapped tests in each of the mock file-systems. * `addTestFilesToFileSystem()` - use this to add files and their contents to the mock file system for testing. * `loadTestFilesFromDisk()` - use this to load a mirror image of files on disk into the in-memory mock file-system. * `loadFakeCore()` - use this to load a fake version of `@angular/core` into the mock file-system. All ngcc and ngtsc source and tests now use this virtual file-system setup. PR Close #30921
2019-06-06 15:22:32 -04:00
loadTestFiles(files);
if (dtsFiles) {
loadTestFiles(dtsFiles);
}
if (mappingFiles) {
loadTestFiles(mappingFiles);
}
const fs = getFileSystem();
refactor(ivy): ngcc - encapsulate variables into "bundles" (#26906) There are a number of variables that need to be passed around the program, in particular to the renderers, which benefit from being stored in well defined objects. The new `EntryPointBundle` structure is a specific format of an entry-point and contains the compiled `BundleProgram` objects for the source and typings, if appropriate. This change helps with future refactoring, where we may need to add new properties to this object. It allows us to maintain more stable APIs between the constituent parts of ngcc, rather than passing lots of primitive values around throughout the program. PR Close #26906
2018-11-25 16:40:25 -05:00
const isCore = packageName === '@angular/core';
refactor(ivy): implement a virtual file-system layer in ngtsc + ngcc (#30921) To improve cross platform support, all file access (and path manipulation) is now done through a well known interface (`FileSystem`). For testing a number of `MockFileSystem` implementations are provided. These provide an in-memory file-system which emulates operating systems like OS/X, Unix and Windows. The current file system is always available via the static method, `FileSystem.getFileSystem()`. This is also used by a number of static methods on `AbsoluteFsPath` and `PathSegment`, to avoid having to pass `FileSystem` objects around all the time. The result of this is that one must be careful to ensure that the file-system has been initialized before using any of these static methods. To prevent this happening accidentally the current file system always starts out as an instance of `InvalidFileSystem`, which will throw an error if any of its methods are called. You can set the current file-system by calling `FileSystem.setFileSystem()`. During testing you can call the helper function `initMockFileSystem(os)` which takes a string name of the OS to emulate, and will also monkey-patch aspects of the TypeScript library to ensure that TS is also using the current file-system. Finally there is the `NgtscCompilerHost` to be used for any TypeScript compilation, which uses a given file-system. All tests that interact with the file-system should be tested against each of the mock file-systems. A series of helpers have been provided to support such tests: * `runInEachFileSystem()` - wrap your tests in this helper to run all the wrapped tests in each of the mock file-systems. * `addTestFilesToFileSystem()` - use this to add files and their contents to the mock file system for testing. * `loadTestFilesFromDisk()` - use this to load a mirror image of files on disk into the in-memory mock file-system. * `loadFakeCore()` - use this to load a fake version of `@angular/core` into the mock file-system. All ngcc and ngtsc source and tests now use this virtual file-system setup. PR Close #30921
2019-06-06 15:22:32 -04:00
const bundle = makeTestEntryPointBundle(
fix(ngcc): render new definitions using the inner name of the class (#33533) When decorating classes with ivy definitions (e.g. `ɵfac` or `ɵdir`) the inner name of the class declaration must be used. This is because in ES5 the definitions are inside the class's IIFE where the outer declaration has not yet been initialized. PR Close #33533
2019-11-01 12:55:10 -04:00
'test-package', 'esm5', isCore, getRootFiles(files), dtsFiles && getRootFiles(dtsFiles));
refactor(ngcc): use bundle src to create reflection hosts (#34254) Previously individual properties of the src bundle program were passed to the reflection host constructors. But going forward, more properties will be required. To prevent the signature getting continually larger and more unwieldy, this change just passes the whole src bundle to the constructor, allowing it to extract what it needs. PR Close #34254
2019-12-18 09:03:04 -05:00
const host = isEs5 ? new Esm5ReflectionHost(logger, isCore, bundle.src, bundle.dts) :
new Esm2015ReflectionHost(logger, isCore, bundle.src, bundle.dts);
feat(ivy): register references from NgModule annotations (#26906) The `NgModuleDecoratorHandler` can now register all the references that it finds in the `NgModule` metadata, such as `declarations`, `imports`, `exports` etc. This information can then be used by ngcc to work out if any of these references are internal only and need to be manually exported from a library's entry-point. PR Close #26906
2018-11-13 09:40:54 -05:00
const referencesRegistry = new NgccReferencesRegistry(host);
refactor(ivy): ngcc - pass `bundle` to `DecorationAnalyzer` (#30591) Rather than passing a number of individual arguments, we can just pass an `EntryPointBundle`, which already contains them. This is also a precursor to using more of the properties in the bundle. PR Close #30591
2019-05-25 15:53:52 -04:00
const decorationAnalyses =
new DecorationAnalyzer(fs, bundle, host, referencesRegistry).analyzeProgram();
fix(ivy): ngcc - do not analyze files outside the current package (#30591) Our module resolution prefers `.js` files over `.d.ts` files because occasionally libraries publish their typings in the same directory structure as the compiled JS files, i.e. adjacent to each other. The standard TS module resolution would pick up the typings file and add that to the `ts.Program` and so they would be ignored by our analyzers. But we need those JS files, if they are part of the current package. But this meant that we also bring in JS files from external imports from outside the package, which is not desired. This was happening for the `@fire/storage` enty-point that was importing the `firebase/storage` path. In this commit we solve this problem, for the case of imports coming from a completely different package, by saying that any file that is outside the package root directory must be an external import and so we do not analyze those files. This does not solve the potential problem of imports between secondary entry-points within a package but so far that does not appear to be a problem. PR Close #30591
2019-05-25 16:34:40 -04:00
const switchMarkerAnalyses =
new SwitchMarkerAnalyzer(host, bundle.entryPoint.package).analyzeProgram(bundle.src.program);
feat(ivy): ngcc - render private declaration exports (#26906) Ngcc will now render additional exports for classes that are referenced in `NgModule` decorated classes, but which were not publicly exported from an entry-point of the package. This is important because when ngtsc compiles libraries processed by ngcc it needs to be able to publcly access decorated classes that are referenced by `NgModule` decorated classes in order to build templates that use these classes. Doing this re-exporting is not without its risks. There are chances that the class is not exported correctly: there may already be similarly named exports from the entry-point or the class may be being aliased. But there is not much more we can do from the point of view of ngcc to workaround such scenarios. Generally, packages should have been built so that this approach works. PR Close #26906
2018-11-25 17:07:51 -05:00
const privateDeclarationsAnalyses =
new PrivateDeclarationsAnalyzer(host, referencesRegistry).analyzeProgram(bundle.src.program);
fix(ivy): ngcc - separate typings rendering from src rendering (#25445) Previously the same `Renderer` was used to render typings (.d.ts) files. But the new `UmdRenderer` is not able to render typings files correctly. This commit splits out the typings rendering from the src rendering. To achieve this the previous renderers have been refactored from sub-classes of the abstract `Renderer` class to classes that implement the `RenderingFormatter` interface, which are then passed to the `Renderer` and `DtsRenderer` to modify its rendering behaviour. Along the way a few utility interfaces and classes have been moved around and renamed for clarity. PR Close #25445
2019-04-28 15:48:35 -04:00
const testFormatter = new TestRenderingFormatter();
spyOn(testFormatter, 'addExports').and.callThrough();
spyOn(testFormatter, 'addImports').and.callThrough();
spyOn(testFormatter, 'addDefinitions').and.callThrough();
fix(ngcc): render adjacent statements after static properties (#33630) See https://github.com/angular/angular/pull/33337#issuecomment-545487737 Fixes FW-1664 PR Close #33630
2019-11-06 12:03:56 -05:00
spyOn(testFormatter, 'addAdjacentStatements').and.callThrough();
fix(ivy): ngcc - separate typings rendering from src rendering (#25445) Previously the same `Renderer` was used to render typings (.d.ts) files. But the new `UmdRenderer` is not able to render typings files correctly. This commit splits out the typings rendering from the src rendering. To achieve this the previous renderers have been refactored from sub-classes of the abstract `Renderer` class to classes that implement the `RenderingFormatter` interface, which are then passed to the `Renderer` and `DtsRenderer` to modify its rendering behaviour. Along the way a few utility interfaces and classes have been moved around and renamed for clarity. PR Close #25445
2019-04-28 15:48:35 -04:00
spyOn(testFormatter, 'addConstants').and.callThrough();
spyOn(testFormatter, 'removeDecorators').and.callThrough();
spyOn(testFormatter, 'rewriteSwitchableDeclarations').and.callThrough();
spyOn(testFormatter, 'addModuleWithProvidersParams').and.callThrough();
fix(ngcc): do not emit ES2015 code in ES5 files (#33514) Previously, ngcc's `Renderer` would add some constants in the processed files which were emitted as ES2015 code (e.g. `const` declarations). This would result in invalid ES5 generated code that would break when run on browsers that do not support the emitted format. This commit fixes it by adding a `printStatement()` method to `RenderingFormatter`, which can convert statements to JavaScript code in a suitable format for the corresponding `RenderingFormatter`. Additionally, the `translateExpression()` and `translateStatement()` ngtsc helper methods are augmented to accept an extra hint to know whether the code needs to be translated to ES5 format or not. Fixes #32665 PR Close #33514
2019-11-04 12:29:01 -05:00
spyOn(testFormatter, 'printStatement').and.callThrough();
fix(ivy): ngcc - separate typings rendering from src rendering (#25445) Previously the same `Renderer` was used to render typings (.d.ts) files. But the new `UmdRenderer` is not able to render typings files correctly. This commit splits out the typings rendering from the src rendering. To achieve this the previous renderers have been refactored from sub-classes of the abstract `Renderer` class to classes that implement the `RenderingFormatter` interface, which are then passed to the `Renderer` and `DtsRenderer` to modify its rendering behaviour. Along the way a few utility interfaces and classes have been moved around and renamed for clarity. PR Close #25445
2019-04-28 15:48:35 -04:00
fix(ngcc): render new definitions using the inner name of the class (#33533) When decorating classes with ivy definitions (e.g. `ɵfac` or `ɵdir`) the inner name of the class declaration must be used. This is because in ES5 the definitions are inside the class's IIFE where the outer declaration has not yet been initialized. PR Close #33533
2019-11-01 12:55:10 -04:00
const renderer = new Renderer(host, testFormatter, fs, logger, bundle);
refactor(ivy): remove ngcc `Parser` and use `NgccReflectionHost` instead (#26082) PR Close #26082
2018-09-28 09:57:50 -04:00
test(ivy): ngcc - check the actual file that is passed to `renderImports` (#25445) Previously we were just checking that the object was "any" object but now we check that it is the file object that we expected. PR Close #25445
2019-04-28 15:48:33 -04:00
return {renderer,
fix(ivy): ngcc - separate typings rendering from src rendering (#25445) Previously the same `Renderer` was used to render typings (.d.ts) files. But the new `UmdRenderer` is not able to render typings files correctly. This commit splits out the typings rendering from the src rendering. To achieve this the previous renderers have been refactored from sub-classes of the abstract `Renderer` class to classes that implement the `RenderingFormatter` interface, which are then passed to the `Renderer` and `DtsRenderer` to modify its rendering behaviour. Along the way a few utility interfaces and classes have been moved around and renamed for clarity. PR Close #25445
2019-04-28 15:48:35 -04:00
testFormatter,
test(ivy): ngcc - check the actual file that is passed to `renderImports` (#25445) Previously we were just checking that the object was "any" object but now we check that it is the file object that we expected. PR Close #25445
2019-04-28 15:48:33 -04:00
decorationAnalyses,
switchMarkerAnalyses,
privateDeclarationsAnalyses,
bundle};
feat(ivy): implement esm2015 and esm5 ngcc file renderers (#24897) PR Close #24897
2018-07-16 05:23:37 -04:00
}
refactor(ivy): implement a virtual file-system layer in ngtsc + ngcc (#30921) To improve cross platform support, all file access (and path manipulation) is now done through a well known interface (`FileSystem`). For testing a number of `MockFileSystem` implementations are provided. These provide an in-memory file-system which emulates operating systems like OS/X, Unix and Windows. The current file system is always available via the static method, `FileSystem.getFileSystem()`. This is also used by a number of static methods on `AbsoluteFsPath` and `PathSegment`, to avoid having to pass `FileSystem` objects around all the time. The result of this is that one must be careful to ensure that the file-system has been initialized before using any of these static methods. To prevent this happening accidentally the current file system always starts out as an instance of `InvalidFileSystem`, which will throw an error if any of its methods are called. You can set the current file-system by calling `FileSystem.setFileSystem()`. During testing you can call the helper function `initMockFileSystem(os)` which takes a string name of the OS to emulate, and will also monkey-patch aspects of the TypeScript library to ensure that TS is also using the current file-system. Finally there is the `NgtscCompilerHost` to be used for any TypeScript compilation, which uses a given file-system. All tests that interact with the file-system should be tested against each of the mock file-systems. A series of helpers have been provided to support such tests: * `runInEachFileSystem()` - wrap your tests in this helper to run all the wrapped tests in each of the mock file-systems. * `addTestFilesToFileSystem()` - use this to add files and their contents to the mock file system for testing. * `loadTestFilesFromDisk()` - use this to load a mirror image of files on disk into the in-memory mock file-system. * `loadFakeCore()` - use this to load a fake version of `@angular/core` into the mock file-system. All ngcc and ngtsc source and tests now use this virtual file-system setup. PR Close #30921
2019-06-06 15:22:32 -04:00
runInEachFileSystem(() => {
describe('Renderer', () => {
let _: typeof absoluteFrom;
let INPUT_PROGRAM: TestFile;
let COMPONENT_PROGRAM: TestFile;
fix(ivy): ngcc emits static fields before extra statements (#31933) This commit changes the emit order of ngcc when a class has multiple static fields being assigned. Previously, ngcc would emit each static field followed immediately by any extra statements specified for that field. This causes issues with downstream tooling such as build optimizer, which expects all of the static fields for a class to be grouped together. ngtsc already groups static fields and additional statements. This commit changes ngcc's ordering to match. PR Close #31933
2019-07-30 18:57:46 -04:00
let NGMODULE_PROGRAM: TestFile;
refactor(ivy): implement a virtual file-system layer in ngtsc + ngcc (#30921) To improve cross platform support, all file access (and path manipulation) is now done through a well known interface (`FileSystem`). For testing a number of `MockFileSystem` implementations are provided. These provide an in-memory file-system which emulates operating systems like OS/X, Unix and Windows. The current file system is always available via the static method, `FileSystem.getFileSystem()`. This is also used by a number of static methods on `AbsoluteFsPath` and `PathSegment`, to avoid having to pass `FileSystem` objects around all the time. The result of this is that one must be careful to ensure that the file-system has been initialized before using any of these static methods. To prevent this happening accidentally the current file system always starts out as an instance of `InvalidFileSystem`, which will throw an error if any of its methods are called. You can set the current file-system by calling `FileSystem.setFileSystem()`. During testing you can call the helper function `initMockFileSystem(os)` which takes a string name of the OS to emulate, and will also monkey-patch aspects of the TypeScript library to ensure that TS is also using the current file-system. Finally there is the `NgtscCompilerHost` to be used for any TypeScript compilation, which uses a given file-system. All tests that interact with the file-system should be tested against each of the mock file-systems. A series of helpers have been provided to support such tests: * `runInEachFileSystem()` - wrap your tests in this helper to run all the wrapped tests in each of the mock file-systems. * `addTestFilesToFileSystem()` - use this to add files and their contents to the mock file system for testing. * `loadTestFilesFromDisk()` - use this to load a mirror image of files on disk into the in-memory mock file-system. * `loadFakeCore()` - use this to load a fake version of `@angular/core` into the mock file-system. All ngcc and ngtsc source and tests now use this virtual file-system setup. PR Close #30921
2019-06-06 15:22:32 -04:00
let INPUT_PROGRAM_MAP: SourceMapConverter;
let RENDERED_CONTENTS: string;
let OUTPUT_PROGRAM_MAP: SourceMapConverter;
let MERGED_OUTPUT_PROGRAM_MAP: SourceMapConverter;
beforeEach(() => {
_ = absoluteFrom;
INPUT_PROGRAM = {
fix(ivy): ngcc - do not analyze files outside the current package (#30591) Our module resolution prefers `.js` files over `.d.ts` files because occasionally libraries publish their typings in the same directory structure as the compiled JS files, i.e. adjacent to each other. The standard TS module resolution would pick up the typings file and add that to the `ts.Program` and so they would be ignored by our analyzers. But we need those JS files, if they are part of the current package. But this meant that we also bring in JS files from external imports from outside the package, which is not desired. This was happening for the `@fire/storage` enty-point that was importing the `firebase/storage` path. In this commit we solve this problem, for the case of imports coming from a completely different package, by saying that any file that is outside the package root directory must be an external import and so we do not analyze those files. This does not solve the potential problem of imports between secondary entry-points within a package but so far that does not appear to be a problem. PR Close #30591
2019-05-25 16:34:40 -04:00
name: _('/node_modules/test-package/src/file.js'),
refactor(ivy): implement a virtual file-system layer in ngtsc + ngcc (#30921) To improve cross platform support, all file access (and path manipulation) is now done through a well known interface (`FileSystem`). For testing a number of `MockFileSystem` implementations are provided. These provide an in-memory file-system which emulates operating systems like OS/X, Unix and Windows. The current file system is always available via the static method, `FileSystem.getFileSystem()`. This is also used by a number of static methods on `AbsoluteFsPath` and `PathSegment`, to avoid having to pass `FileSystem` objects around all the time. The result of this is that one must be careful to ensure that the file-system has been initialized before using any of these static methods. To prevent this happening accidentally the current file system always starts out as an instance of `InvalidFileSystem`, which will throw an error if any of its methods are called. You can set the current file-system by calling `FileSystem.setFileSystem()`. During testing you can call the helper function `initMockFileSystem(os)` which takes a string name of the OS to emulate, and will also monkey-patch aspects of the TypeScript library to ensure that TS is also using the current file-system. Finally there is the `NgtscCompilerHost` to be used for any TypeScript compilation, which uses a given file-system. All tests that interact with the file-system should be tested against each of the mock file-systems. A series of helpers have been provided to support such tests: * `runInEachFileSystem()` - wrap your tests in this helper to run all the wrapped tests in each of the mock file-systems. * `addTestFilesToFileSystem()` - use this to add files and their contents to the mock file system for testing. * `loadTestFilesFromDisk()` - use this to load a mirror image of files on disk into the in-memory mock file-system. * `loadFakeCore()` - use this to load a fake version of `@angular/core` into the mock file-system. All ngcc and ngtsc source and tests now use this virtual file-system setup. PR Close #30921
2019-06-06 15:22:32 -04:00
contents:
`import { Directive } from '@angular/core';\nexport class A {\n foo(x) {\n return x;\n }\n}\nA.decorators = [\n { type: Directive, args: [{ selector: '[a]' }] }\n];\n`
};
COMPONENT_PROGRAM = {
fix(ivy): ngcc - do not analyze files outside the current package (#30591) Our module resolution prefers `.js` files over `.d.ts` files because occasionally libraries publish their typings in the same directory structure as the compiled JS files, i.e. adjacent to each other. The standard TS module resolution would pick up the typings file and add that to the `ts.Program` and so they would be ignored by our analyzers. But we need those JS files, if they are part of the current package. But this meant that we also bring in JS files from external imports from outside the package, which is not desired. This was happening for the `@fire/storage` enty-point that was importing the `firebase/storage` path. In this commit we solve this problem, for the case of imports coming from a completely different package, by saying that any file that is outside the package root directory must be an external import and so we do not analyze those files. This does not solve the potential problem of imports between secondary entry-points within a package but so far that does not appear to be a problem. PR Close #30591
2019-05-25 16:34:40 -04:00
name: _('/node_modules/test-package/src/component.js'),
refactor(ivy): implement a virtual file-system layer in ngtsc + ngcc (#30921) To improve cross platform support, all file access (and path manipulation) is now done through a well known interface (`FileSystem`). For testing a number of `MockFileSystem` implementations are provided. These provide an in-memory file-system which emulates operating systems like OS/X, Unix and Windows. The current file system is always available via the static method, `FileSystem.getFileSystem()`. This is also used by a number of static methods on `AbsoluteFsPath` and `PathSegment`, to avoid having to pass `FileSystem` objects around all the time. The result of this is that one must be careful to ensure that the file-system has been initialized before using any of these static methods. To prevent this happening accidentally the current file system always starts out as an instance of `InvalidFileSystem`, which will throw an error if any of its methods are called. You can set the current file-system by calling `FileSystem.setFileSystem()`. During testing you can call the helper function `initMockFileSystem(os)` which takes a string name of the OS to emulate, and will also monkey-patch aspects of the TypeScript library to ensure that TS is also using the current file-system. Finally there is the `NgtscCompilerHost` to be used for any TypeScript compilation, which uses a given file-system. All tests that interact with the file-system should be tested against each of the mock file-systems. A series of helpers have been provided to support such tests: * `runInEachFileSystem()` - wrap your tests in this helper to run all the wrapped tests in each of the mock file-systems. * `addTestFilesToFileSystem()` - use this to add files and their contents to the mock file system for testing. * `loadTestFilesFromDisk()` - use this to load a mirror image of files on disk into the in-memory mock file-system. * `loadFakeCore()` - use this to load a fake version of `@angular/core` into the mock file-system. All ngcc and ngtsc source and tests now use this virtual file-system setup. PR Close #30921
2019-06-06 15:22:32 -04:00
contents:
`import { Component } from '@angular/core';\nexport class A {}\nA.decorators = [\n { type: Component, args: [{ selector: 'a', template: '{{ person!.name }}' }] }\n];\n`
};
fix(ivy): ngcc emits static fields before extra statements (#31933) This commit changes the emit order of ngcc when a class has multiple static fields being assigned. Previously, ngcc would emit each static field followed immediately by any extra statements specified for that field. This causes issues with downstream tooling such as build optimizer, which expects all of the static fields for a class to be grouped together. ngtsc already groups static fields and additional statements. This commit changes ngcc's ordering to match. PR Close #31933
2019-07-30 18:57:46 -04:00
NGMODULE_PROGRAM = {
name: _('/node_modules/test-package/src/ngmodule.js'),
contents:
`import { NgModule } from '@angular/core';\nexport class A {}\nA.decorators = [\n { type: NgModule, args: [{}] }\n];\n`
};
refactor(ivy): implement a virtual file-system layer in ngtsc + ngcc (#30921) To improve cross platform support, all file access (and path manipulation) is now done through a well known interface (`FileSystem`). For testing a number of `MockFileSystem` implementations are provided. These provide an in-memory file-system which emulates operating systems like OS/X, Unix and Windows. The current file system is always available via the static method, `FileSystem.getFileSystem()`. This is also used by a number of static methods on `AbsoluteFsPath` and `PathSegment`, to avoid having to pass `FileSystem` objects around all the time. The result of this is that one must be careful to ensure that the file-system has been initialized before using any of these static methods. To prevent this happening accidentally the current file system always starts out as an instance of `InvalidFileSystem`, which will throw an error if any of its methods are called. You can set the current file-system by calling `FileSystem.setFileSystem()`. During testing you can call the helper function `initMockFileSystem(os)` which takes a string name of the OS to emulate, and will also monkey-patch aspects of the TypeScript library to ensure that TS is also using the current file-system. Finally there is the `NgtscCompilerHost` to be used for any TypeScript compilation, which uses a given file-system. All tests that interact with the file-system should be tested against each of the mock file-systems. A series of helpers have been provided to support such tests: * `runInEachFileSystem()` - wrap your tests in this helper to run all the wrapped tests in each of the mock file-systems. * `addTestFilesToFileSystem()` - use this to add files and their contents to the mock file system for testing. * `loadTestFilesFromDisk()` - use this to load a mirror image of files on disk into the in-memory mock file-system. * `loadFakeCore()` - use this to load a fake version of `@angular/core` into the mock file-system. All ngcc and ngtsc source and tests now use this virtual file-system setup. PR Close #30921
2019-06-06 15:22:32 -04:00
INPUT_PROGRAM_MAP = fromObject({
'version': 3,
fix(ivy): ngcc - do not analyze files outside the current package (#30591) Our module resolution prefers `.js` files over `.d.ts` files because occasionally libraries publish their typings in the same directory structure as the compiled JS files, i.e. adjacent to each other. The standard TS module resolution would pick up the typings file and add that to the `ts.Program` and so they would be ignored by our analyzers. But we need those JS files, if they are part of the current package. But this meant that we also bring in JS files from external imports from outside the package, which is not desired. This was happening for the `@fire/storage` enty-point that was importing the `firebase/storage` path. In this commit we solve this problem, for the case of imports coming from a completely different package, by saying that any file that is outside the package root directory must be an external import and so we do not analyze those files. This does not solve the potential problem of imports between secondary entry-points within a package but so far that does not appear to be a problem. PR Close #30591
2019-05-25 16:34:40 -04:00
'file': _('/node_modules/test-package/src/file.js'),
refactor(ivy): implement a virtual file-system layer in ngtsc + ngcc (#30921) To improve cross platform support, all file access (and path manipulation) is now done through a well known interface (`FileSystem`). For testing a number of `MockFileSystem` implementations are provided. These provide an in-memory file-system which emulates operating systems like OS/X, Unix and Windows. The current file system is always available via the static method, `FileSystem.getFileSystem()`. This is also used by a number of static methods on `AbsoluteFsPath` and `PathSegment`, to avoid having to pass `FileSystem` objects around all the time. The result of this is that one must be careful to ensure that the file-system has been initialized before using any of these static methods. To prevent this happening accidentally the current file system always starts out as an instance of `InvalidFileSystem`, which will throw an error if any of its methods are called. You can set the current file-system by calling `FileSystem.setFileSystem()`. During testing you can call the helper function `initMockFileSystem(os)` which takes a string name of the OS to emulate, and will also monkey-patch aspects of the TypeScript library to ensure that TS is also using the current file-system. Finally there is the `NgtscCompilerHost` to be used for any TypeScript compilation, which uses a given file-system. All tests that interact with the file-system should be tested against each of the mock file-systems. A series of helpers have been provided to support such tests: * `runInEachFileSystem()` - wrap your tests in this helper to run all the wrapped tests in each of the mock file-systems. * `addTestFilesToFileSystem()` - use this to add files and their contents to the mock file system for testing. * `loadTestFilesFromDisk()` - use this to load a mirror image of files on disk into the in-memory mock file-system. * `loadFakeCore()` - use this to load a fake version of `@angular/core` into the mock file-system. All ngcc and ngtsc source and tests now use this virtual file-system setup. PR Close #30921
2019-06-06 15:22:32 -04:00
'sourceRoot': '',
fix(ivy): ngcc - do not analyze files outside the current package (#30591) Our module resolution prefers `.js` files over `.d.ts` files because occasionally libraries publish their typings in the same directory structure as the compiled JS files, i.e. adjacent to each other. The standard TS module resolution would pick up the typings file and add that to the `ts.Program` and so they would be ignored by our analyzers. But we need those JS files, if they are part of the current package. But this meant that we also bring in JS files from external imports from outside the package, which is not desired. This was happening for the `@fire/storage` enty-point that was importing the `firebase/storage` path. In this commit we solve this problem, for the case of imports coming from a completely different package, by saying that any file that is outside the package root directory must be an external import and so we do not analyze those files. This does not solve the potential problem of imports between secondary entry-points within a package but so far that does not appear to be a problem. PR Close #30591
2019-05-25 16:34:40 -04:00
'sources': [_('/node_modules/test-package/src/file.ts')],
refactor(ivy): implement a virtual file-system layer in ngtsc + ngcc (#30921) To improve cross platform support, all file access (and path manipulation) is now done through a well known interface (`FileSystem`). For testing a number of `MockFileSystem` implementations are provided. These provide an in-memory file-system which emulates operating systems like OS/X, Unix and Windows. The current file system is always available via the static method, `FileSystem.getFileSystem()`. This is also used by a number of static methods on `AbsoluteFsPath` and `PathSegment`, to avoid having to pass `FileSystem` objects around all the time. The result of this is that one must be careful to ensure that the file-system has been initialized before using any of these static methods. To prevent this happening accidentally the current file system always starts out as an instance of `InvalidFileSystem`, which will throw an error if any of its methods are called. You can set the current file-system by calling `FileSystem.setFileSystem()`. During testing you can call the helper function `initMockFileSystem(os)` which takes a string name of the OS to emulate, and will also monkey-patch aspects of the TypeScript library to ensure that TS is also using the current file-system. Finally there is the `NgtscCompilerHost` to be used for any TypeScript compilation, which uses a given file-system. All tests that interact with the file-system should be tested against each of the mock file-systems. A series of helpers have been provided to support such tests: * `runInEachFileSystem()` - wrap your tests in this helper to run all the wrapped tests in each of the mock file-systems. * `addTestFilesToFileSystem()` - use this to add files and their contents to the mock file system for testing. * `loadTestFilesFromDisk()` - use this to load a mirror image of files on disk into the in-memory mock file-system. * `loadFakeCore()` - use this to load a fake version of `@angular/core` into the mock file-system. All ngcc and ngtsc source and tests now use this virtual file-system setup. PR Close #30921
2019-06-06 15:22:32 -04:00
'names': [],
'mappings':
'AAAA,OAAO,EAAE,SAAS,EAAE,MAAM,eAAe,CAAC;AAC1C,MAAM;IACF,GAAG,CAAC,CAAS;QACT,OAAO,CAAC,CAAC;IACb,CAAC;;AACM,YAAU,GAAG;IAChB,EAAE,IAAI,EAAE,SAAS,EAAE,IAAI,EAAE,CAAC,EAAE,QAAQ,EAAE,KAAK,EAAE,CAAC,EAAE;CACnD,CAAC',
'sourcesContent': [INPUT_PROGRAM.contents]
});
refactor(ivy): remove ngcc `Parser` and use `NgccReflectionHost` instead (#26082) PR Close #26082
2018-09-28 09:57:50 -04:00
refactor(ivy): implement a virtual file-system layer in ngtsc + ngcc (#30921) To improve cross platform support, all file access (and path manipulation) is now done through a well known interface (`FileSystem`). For testing a number of `MockFileSystem` implementations are provided. These provide an in-memory file-system which emulates operating systems like OS/X, Unix and Windows. The current file system is always available via the static method, `FileSystem.getFileSystem()`. This is also used by a number of static methods on `AbsoluteFsPath` and `PathSegment`, to avoid having to pass `FileSystem` objects around all the time. The result of this is that one must be careful to ensure that the file-system has been initialized before using any of these static methods. To prevent this happening accidentally the current file system always starts out as an instance of `InvalidFileSystem`, which will throw an error if any of its methods are called. You can set the current file-system by calling `FileSystem.setFileSystem()`. During testing you can call the helper function `initMockFileSystem(os)` which takes a string name of the OS to emulate, and will also monkey-patch aspects of the TypeScript library to ensure that TS is also using the current file-system. Finally there is the `NgtscCompilerHost` to be used for any TypeScript compilation, which uses a given file-system. All tests that interact with the file-system should be tested against each of the mock file-systems. A series of helpers have been provided to support such tests: * `runInEachFileSystem()` - wrap your tests in this helper to run all the wrapped tests in each of the mock file-systems. * `addTestFilesToFileSystem()` - use this to add files and their contents to the mock file system for testing. * `loadTestFilesFromDisk()` - use this to load a mirror image of files on disk into the in-memory mock file-system. * `loadFakeCore()` - use this to load a fake version of `@angular/core` into the mock file-system. All ngcc and ngtsc source and tests now use this virtual file-system setup. PR Close #30921
2019-06-06 15:22:32 -04:00
RENDERED_CONTENTS = `
feat(ivy): ngcc - implement `UmdRenderer` (#25445) PR Close #25445
2019-04-28 15:48:35 -04:00
// ADD IMPORTS
// ADD EXPORTS
// ADD CONSTANTS
fix(ngcc): render adjacent statements after static properties (#33630) See https://github.com/angular/angular/pull/33337#issuecomment-545487737 Fixes FW-1664 PR Close #33630
2019-11-06 12:03:56 -05:00
// ADD ADJACENT STATEMENTS
feat(ivy): ngcc - implement `UmdRenderer` (#25445) PR Close #25445
2019-04-28 15:48:35 -04:00
// ADD DEFINITIONS
// REMOVE DECORATORS
` + INPUT_PROGRAM.contents;
refactor(ivy): ngcc - `Renderer` now manages d.ts transformation (#26082) PR Close #26082
2018-10-04 07:19:11 -04:00
refactor(ivy): implement a virtual file-system layer in ngtsc + ngcc (#30921) To improve cross platform support, all file access (and path manipulation) is now done through a well known interface (`FileSystem`). For testing a number of `MockFileSystem` implementations are provided. These provide an in-memory file-system which emulates operating systems like OS/X, Unix and Windows. The current file system is always available via the static method, `FileSystem.getFileSystem()`. This is also used by a number of static methods on `AbsoluteFsPath` and `PathSegment`, to avoid having to pass `FileSystem` objects around all the time. The result of this is that one must be careful to ensure that the file-system has been initialized before using any of these static methods. To prevent this happening accidentally the current file system always starts out as an instance of `InvalidFileSystem`, which will throw an error if any of its methods are called. You can set the current file-system by calling `FileSystem.setFileSystem()`. During testing you can call the helper function `initMockFileSystem(os)` which takes a string name of the OS to emulate, and will also monkey-patch aspects of the TypeScript library to ensure that TS is also using the current file-system. Finally there is the `NgtscCompilerHost` to be used for any TypeScript compilation, which uses a given file-system. All tests that interact with the file-system should be tested against each of the mock file-systems. A series of helpers have been provided to support such tests: * `runInEachFileSystem()` - wrap your tests in this helper to run all the wrapped tests in each of the mock file-systems. * `addTestFilesToFileSystem()` - use this to add files and their contents to the mock file system for testing. * `loadTestFilesFromDisk()` - use this to load a mirror image of files on disk into the in-memory mock file-system. * `loadFakeCore()` - use this to load a fake version of `@angular/core` into the mock file-system. All ngcc and ngtsc source and tests now use this virtual file-system setup. PR Close #30921
2019-06-06 15:22:32 -04:00
OUTPUT_PROGRAM_MAP = fromObject({
'version': 3,
'file': 'file.js',
fix(ivy): ngcc - do not analyze files outside the current package (#30591) Our module resolution prefers `.js` files over `.d.ts` files because occasionally libraries publish their typings in the same directory structure as the compiled JS files, i.e. adjacent to each other. The standard TS module resolution would pick up the typings file and add that to the `ts.Program` and so they would be ignored by our analyzers. But we need those JS files, if they are part of the current package. But this meant that we also bring in JS files from external imports from outside the package, which is not desired. This was happening for the `@fire/storage` enty-point that was importing the `firebase/storage` path. In this commit we solve this problem, for the case of imports coming from a completely different package, by saying that any file that is outside the package root directory must be an external import and so we do not analyze those files. This does not solve the potential problem of imports between secondary entry-points within a package but so far that does not appear to be a problem. PR Close #30591
2019-05-25 16:34:40 -04:00
'sources': [_('/node_modules/test-package/src/file.js')],
refactor(ivy): implement a virtual file-system layer in ngtsc + ngcc (#30921) To improve cross platform support, all file access (and path manipulation) is now done through a well known interface (`FileSystem`). For testing a number of `MockFileSystem` implementations are provided. These provide an in-memory file-system which emulates operating systems like OS/X, Unix and Windows. The current file system is always available via the static method, `FileSystem.getFileSystem()`. This is also used by a number of static methods on `AbsoluteFsPath` and `PathSegment`, to avoid having to pass `FileSystem` objects around all the time. The result of this is that one must be careful to ensure that the file-system has been initialized before using any of these static methods. To prevent this happening accidentally the current file system always starts out as an instance of `InvalidFileSystem`, which will throw an error if any of its methods are called. You can set the current file-system by calling `FileSystem.setFileSystem()`. During testing you can call the helper function `initMockFileSystem(os)` which takes a string name of the OS to emulate, and will also monkey-patch aspects of the TypeScript library to ensure that TS is also using the current file-system. Finally there is the `NgtscCompilerHost` to be used for any TypeScript compilation, which uses a given file-system. All tests that interact with the file-system should be tested against each of the mock file-systems. A series of helpers have been provided to support such tests: * `runInEachFileSystem()` - wrap your tests in this helper to run all the wrapped tests in each of the mock file-systems. * `addTestFilesToFileSystem()` - use this to add files and their contents to the mock file system for testing. * `loadTestFilesFromDisk()` - use this to load a mirror image of files on disk into the in-memory mock file-system. * `loadFakeCore()` - use this to load a fake version of `@angular/core` into the mock file-system. All ngcc and ngtsc source and tests now use this virtual file-system setup. PR Close #30921
2019-06-06 15:22:32 -04:00
'sourcesContent': [INPUT_PROGRAM.contents],
'names': [],
fix(ngcc): render adjacent statements after static properties (#33630) See https://github.com/angular/angular/pull/33337#issuecomment-545487737 Fixes FW-1664 PR Close #33630
2019-11-06 12:03:56 -05:00
'mappings': ';;;;;;;;;;;;AAAA;;;;;;;;;'
refactor(ivy): implement a virtual file-system layer in ngtsc + ngcc (#30921) To improve cross platform support, all file access (and path manipulation) is now done through a well known interface (`FileSystem`). For testing a number of `MockFileSystem` implementations are provided. These provide an in-memory file-system which emulates operating systems like OS/X, Unix and Windows. The current file system is always available via the static method, `FileSystem.getFileSystem()`. This is also used by a number of static methods on `AbsoluteFsPath` and `PathSegment`, to avoid having to pass `FileSystem` objects around all the time. The result of this is that one must be careful to ensure that the file-system has been initialized before using any of these static methods. To prevent this happening accidentally the current file system always starts out as an instance of `InvalidFileSystem`, which will throw an error if any of its methods are called. You can set the current file-system by calling `FileSystem.setFileSystem()`. During testing you can call the helper function `initMockFileSystem(os)` which takes a string name of the OS to emulate, and will also monkey-patch aspects of the TypeScript library to ensure that TS is also using the current file-system. Finally there is the `NgtscCompilerHost` to be used for any TypeScript compilation, which uses a given file-system. All tests that interact with the file-system should be tested against each of the mock file-systems. A series of helpers have been provided to support such tests: * `runInEachFileSystem()` - wrap your tests in this helper to run all the wrapped tests in each of the mock file-systems. * `addTestFilesToFileSystem()` - use this to add files and their contents to the mock file system for testing. * `loadTestFilesFromDisk()` - use this to load a mirror image of files on disk into the in-memory mock file-system. * `loadFakeCore()` - use this to load a fake version of `@angular/core` into the mock file-system. All ngcc and ngtsc source and tests now use this virtual file-system setup. PR Close #30921
2019-06-06 15:22:32 -04:00
});
feat(ivy): implement esm2015 and esm5 ngcc file renderers (#24897) PR Close #24897
2018-07-16 05:23:37 -04:00
refactor(ivy): implement a virtual file-system layer in ngtsc + ngcc (#30921) To improve cross platform support, all file access (and path manipulation) is now done through a well known interface (`FileSystem`). For testing a number of `MockFileSystem` implementations are provided. These provide an in-memory file-system which emulates operating systems like OS/X, Unix and Windows. The current file system is always available via the static method, `FileSystem.getFileSystem()`. This is also used by a number of static methods on `AbsoluteFsPath` and `PathSegment`, to avoid having to pass `FileSystem` objects around all the time. The result of this is that one must be careful to ensure that the file-system has been initialized before using any of these static methods. To prevent this happening accidentally the current file system always starts out as an instance of `InvalidFileSystem`, which will throw an error if any of its methods are called. You can set the current file-system by calling `FileSystem.setFileSystem()`. During testing you can call the helper function `initMockFileSystem(os)` which takes a string name of the OS to emulate, and will also monkey-patch aspects of the TypeScript library to ensure that TS is also using the current file-system. Finally there is the `NgtscCompilerHost` to be used for any TypeScript compilation, which uses a given file-system. All tests that interact with the file-system should be tested against each of the mock file-systems. A series of helpers have been provided to support such tests: * `runInEachFileSystem()` - wrap your tests in this helper to run all the wrapped tests in each of the mock file-systems. * `addTestFilesToFileSystem()` - use this to add files and their contents to the mock file system for testing. * `loadTestFilesFromDisk()` - use this to load a mirror image of files on disk into the in-memory mock file-system. * `loadFakeCore()` - use this to load a fake version of `@angular/core` into the mock file-system. All ngcc and ngtsc source and tests now use this virtual file-system setup. PR Close #30921
2019-06-06 15:22:32 -04:00
MERGED_OUTPUT_PROGRAM_MAP = fromObject({
'version': 3,
fix(ivy): ngcc - do not analyze files outside the current package (#30591) Our module resolution prefers `.js` files over `.d.ts` files because occasionally libraries publish their typings in the same directory structure as the compiled JS files, i.e. adjacent to each other. The standard TS module resolution would pick up the typings file and add that to the `ts.Program` and so they would be ignored by our analyzers. But we need those JS files, if they are part of the current package. But this meant that we also bring in JS files from external imports from outside the package, which is not desired. This was happening for the `@fire/storage` enty-point that was importing the `firebase/storage` path. In this commit we solve this problem, for the case of imports coming from a completely different package, by saying that any file that is outside the package root directory must be an external import and so we do not analyze those files. This does not solve the potential problem of imports between secondary entry-points within a package but so far that does not appear to be a problem. PR Close #30591
2019-05-25 16:34:40 -04:00
'sources': [_('/node_modules/test-package/src/file.ts')],
refactor(ivy): implement a virtual file-system layer in ngtsc + ngcc (#30921) To improve cross platform support, all file access (and path manipulation) is now done through a well known interface (`FileSystem`). For testing a number of `MockFileSystem` implementations are provided. These provide an in-memory file-system which emulates operating systems like OS/X, Unix and Windows. The current file system is always available via the static method, `FileSystem.getFileSystem()`. This is also used by a number of static methods on `AbsoluteFsPath` and `PathSegment`, to avoid having to pass `FileSystem` objects around all the time. The result of this is that one must be careful to ensure that the file-system has been initialized before using any of these static methods. To prevent this happening accidentally the current file system always starts out as an instance of `InvalidFileSystem`, which will throw an error if any of its methods are called. You can set the current file-system by calling `FileSystem.setFileSystem()`. During testing you can call the helper function `initMockFileSystem(os)` which takes a string name of the OS to emulate, and will also monkey-patch aspects of the TypeScript library to ensure that TS is also using the current file-system. Finally there is the `NgtscCompilerHost` to be used for any TypeScript compilation, which uses a given file-system. All tests that interact with the file-system should be tested against each of the mock file-systems. A series of helpers have been provided to support such tests: * `runInEachFileSystem()` - wrap your tests in this helper to run all the wrapped tests in each of the mock file-systems. * `addTestFilesToFileSystem()` - use this to add files and their contents to the mock file system for testing. * `loadTestFilesFromDisk()` - use this to load a mirror image of files on disk into the in-memory mock file-system. * `loadFakeCore()` - use this to load a fake version of `@angular/core` into the mock file-system. All ngcc and ngtsc source and tests now use this virtual file-system setup. PR Close #30921
2019-06-06 15:22:32 -04:00
'names': [],
fix(ngcc): render adjacent statements after static properties (#33630) See https://github.com/angular/angular/pull/33337#issuecomment-545487737 Fixes FW-1664 PR Close #33630
2019-11-06 12:03:56 -05:00
'mappings': ';;;;;;;;;;;;AAAA',
refactor(ivy): implement a virtual file-system layer in ngtsc + ngcc (#30921) To improve cross platform support, all file access (and path manipulation) is now done through a well known interface (`FileSystem`). For testing a number of `MockFileSystem` implementations are provided. These provide an in-memory file-system which emulates operating systems like OS/X, Unix and Windows. The current file system is always available via the static method, `FileSystem.getFileSystem()`. This is also used by a number of static methods on `AbsoluteFsPath` and `PathSegment`, to avoid having to pass `FileSystem` objects around all the time. The result of this is that one must be careful to ensure that the file-system has been initialized before using any of these static methods. To prevent this happening accidentally the current file system always starts out as an instance of `InvalidFileSystem`, which will throw an error if any of its methods are called. You can set the current file-system by calling `FileSystem.setFileSystem()`. During testing you can call the helper function `initMockFileSystem(os)` which takes a string name of the OS to emulate, and will also monkey-patch aspects of the TypeScript library to ensure that TS is also using the current file-system. Finally there is the `NgtscCompilerHost` to be used for any TypeScript compilation, which uses a given file-system. All tests that interact with the file-system should be tested against each of the mock file-systems. A series of helpers have been provided to support such tests: * `runInEachFileSystem()` - wrap your tests in this helper to run all the wrapped tests in each of the mock file-systems. * `addTestFilesToFileSystem()` - use this to add files and their contents to the mock file system for testing. * `loadTestFilesFromDisk()` - use this to load a mirror image of files on disk into the in-memory mock file-system. * `loadFakeCore()` - use this to load a fake version of `@angular/core` into the mock file-system. All ngcc and ngtsc source and tests now use this virtual file-system setup. PR Close #30921
2019-06-06 15:22:32 -04:00
'file': 'file.js',
'sourcesContent': [INPUT_PROGRAM.contents]
});
});
describe('renderProgram()', () => {
it('should render the modified contents; and a new map file, if the original provided no map file.',
() => {
const {renderer, decorationAnalyses, switchMarkerAnalyses, privateDeclarationsAnalyses} =
createTestRenderer('test-package', [INPUT_PROGRAM]);
const result = renderer.renderProgram(
decorationAnalyses, switchMarkerAnalyses, privateDeclarationsAnalyses);
fix(ivy): ngcc - do not analyze files outside the current package (#30591) Our module resolution prefers `.js` files over `.d.ts` files because occasionally libraries publish their typings in the same directory structure as the compiled JS files, i.e. adjacent to each other. The standard TS module resolution would pick up the typings file and add that to the `ts.Program` and so they would be ignored by our analyzers. But we need those JS files, if they are part of the current package. But this meant that we also bring in JS files from external imports from outside the package, which is not desired. This was happening for the `@fire/storage` enty-point that was importing the `firebase/storage` path. In this commit we solve this problem, for the case of imports coming from a completely different package, by saying that any file that is outside the package root directory must be an external import and so we do not analyze those files. This does not solve the potential problem of imports between secondary entry-points within a package but so far that does not appear to be a problem. PR Close #30591
2019-05-25 16:34:40 -04:00
expect(result[0].path).toEqual(_('/node_modules/test-package/src/file.js'));
refactor(ivy): implement a virtual file-system layer in ngtsc + ngcc (#30921) To improve cross platform support, all file access (and path manipulation) is now done through a well known interface (`FileSystem`). For testing a number of `MockFileSystem` implementations are provided. These provide an in-memory file-system which emulates operating systems like OS/X, Unix and Windows. The current file system is always available via the static method, `FileSystem.getFileSystem()`. This is also used by a number of static methods on `AbsoluteFsPath` and `PathSegment`, to avoid having to pass `FileSystem` objects around all the time. The result of this is that one must be careful to ensure that the file-system has been initialized before using any of these static methods. To prevent this happening accidentally the current file system always starts out as an instance of `InvalidFileSystem`, which will throw an error if any of its methods are called. You can set the current file-system by calling `FileSystem.setFileSystem()`. During testing you can call the helper function `initMockFileSystem(os)` which takes a string name of the OS to emulate, and will also monkey-patch aspects of the TypeScript library to ensure that TS is also using the current file-system. Finally there is the `NgtscCompilerHost` to be used for any TypeScript compilation, which uses a given file-system. All tests that interact with the file-system should be tested against each of the mock file-systems. A series of helpers have been provided to support such tests: * `runInEachFileSystem()` - wrap your tests in this helper to run all the wrapped tests in each of the mock file-systems. * `addTestFilesToFileSystem()` - use this to add files and their contents to the mock file system for testing. * `loadTestFilesFromDisk()` - use this to load a mirror image of files on disk into the in-memory mock file-system. * `loadFakeCore()` - use this to load a fake version of `@angular/core` into the mock file-system. All ngcc and ngtsc source and tests now use this virtual file-system setup. PR Close #30921
2019-06-06 15:22:32 -04:00
expect(result[0].contents)
.toEqual(RENDERED_CONTENTS + '\n' + generateMapFileComment('file.js.map'));
fix(ivy): ngcc - do not analyze files outside the current package (#30591) Our module resolution prefers `.js` files over `.d.ts` files because occasionally libraries publish their typings in the same directory structure as the compiled JS files, i.e. adjacent to each other. The standard TS module resolution would pick up the typings file and add that to the `ts.Program` and so they would be ignored by our analyzers. But we need those JS files, if they are part of the current package. But this meant that we also bring in JS files from external imports from outside the package, which is not desired. This was happening for the `@fire/storage` enty-point that was importing the `firebase/storage` path. In this commit we solve this problem, for the case of imports coming from a completely different package, by saying that any file that is outside the package root directory must be an external import and so we do not analyze those files. This does not solve the potential problem of imports between secondary entry-points within a package but so far that does not appear to be a problem. PR Close #30591
2019-05-25 16:34:40 -04:00
expect(result[1].path).toEqual(_('/node_modules/test-package/src/file.js.map'));
refactor(ivy): implement a virtual file-system layer in ngtsc + ngcc (#30921) To improve cross platform support, all file access (and path manipulation) is now done through a well known interface (`FileSystem`). For testing a number of `MockFileSystem` implementations are provided. These provide an in-memory file-system which emulates operating systems like OS/X, Unix and Windows. The current file system is always available via the static method, `FileSystem.getFileSystem()`. This is also used by a number of static methods on `AbsoluteFsPath` and `PathSegment`, to avoid having to pass `FileSystem` objects around all the time. The result of this is that one must be careful to ensure that the file-system has been initialized before using any of these static methods. To prevent this happening accidentally the current file system always starts out as an instance of `InvalidFileSystem`, which will throw an error if any of its methods are called. You can set the current file-system by calling `FileSystem.setFileSystem()`. During testing you can call the helper function `initMockFileSystem(os)` which takes a string name of the OS to emulate, and will also monkey-patch aspects of the TypeScript library to ensure that TS is also using the current file-system. Finally there is the `NgtscCompilerHost` to be used for any TypeScript compilation, which uses a given file-system. All tests that interact with the file-system should be tested against each of the mock file-systems. A series of helpers have been provided to support such tests: * `runInEachFileSystem()` - wrap your tests in this helper to run all the wrapped tests in each of the mock file-systems. * `addTestFilesToFileSystem()` - use this to add files and their contents to the mock file system for testing. * `loadTestFilesFromDisk()` - use this to load a mirror image of files on disk into the in-memory mock file-system. * `loadFakeCore()` - use this to load a fake version of `@angular/core` into the mock file-system. All ngcc and ngtsc source and tests now use this virtual file-system setup. PR Close #30921
2019-06-06 15:22:32 -04:00
expect(result[1].contents).toEqual(OUTPUT_PROGRAM_MAP.toJSON());
});
feat(ivy): implement esm2015 and esm5 ngcc file renderers (#24897) PR Close #24897
2018-07-16 05:23:37 -04:00
refactor(ivy): implement a virtual file-system layer in ngtsc + ngcc (#30921) To improve cross platform support, all file access (and path manipulation) is now done through a well known interface (`FileSystem`). For testing a number of `MockFileSystem` implementations are provided. These provide an in-memory file-system which emulates operating systems like OS/X, Unix and Windows. The current file system is always available via the static method, `FileSystem.getFileSystem()`. This is also used by a number of static methods on `AbsoluteFsPath` and `PathSegment`, to avoid having to pass `FileSystem` objects around all the time. The result of this is that one must be careful to ensure that the file-system has been initialized before using any of these static methods. To prevent this happening accidentally the current file system always starts out as an instance of `InvalidFileSystem`, which will throw an error if any of its methods are called. You can set the current file-system by calling `FileSystem.setFileSystem()`. During testing you can call the helper function `initMockFileSystem(os)` which takes a string name of the OS to emulate, and will also monkey-patch aspects of the TypeScript library to ensure that TS is also using the current file-system. Finally there is the `NgtscCompilerHost` to be used for any TypeScript compilation, which uses a given file-system. All tests that interact with the file-system should be tested against each of the mock file-systems. A series of helpers have been provided to support such tests: * `runInEachFileSystem()` - wrap your tests in this helper to run all the wrapped tests in each of the mock file-systems. * `addTestFilesToFileSystem()` - use this to add files and their contents to the mock file system for testing. * `loadTestFilesFromDisk()` - use this to load a mirror image of files on disk into the in-memory mock file-system. * `loadFakeCore()` - use this to load a fake version of `@angular/core` into the mock file-system. All ngcc and ngtsc source and tests now use this virtual file-system setup. PR Close #30921
2019-06-06 15:22:32 -04:00
it('should render as JavaScript', () => {
const {renderer, decorationAnalyses, switchMarkerAnalyses, privateDeclarationsAnalyses,
testFormatter} = createTestRenderer('test-package', [COMPONENT_PROGRAM]);
renderer.renderProgram(
decorationAnalyses, switchMarkerAnalyses, privateDeclarationsAnalyses);
const addDefinitionsSpy = testFormatter.addDefinitions as jasmine.Spy;
fix(ngcc): do not emit ES2015 code in ES5 files (#33514) Previously, ngcc's `Renderer` would add some constants in the processed files which were emitted as ES2015 code (e.g. `const` declarations). This would result in invalid ES5 generated code that would break when run on browsers that do not support the emitted format. This commit fixes it by adding a `printStatement()` method to `RenderingFormatter`, which can convert statements to JavaScript code in a suitable format for the corresponding `RenderingFormatter`. Additionally, the `translateExpression()` and `translateStatement()` ngtsc helper methods are augmented to accept an extra hint to know whether the code needs to be translated to ES5 format or not. Fixes #32665 PR Close #33514
2019-11-04 12:29:01 -05:00
expect(addDefinitionsSpy.calls.first().args[2]).toEqual(`// TRANSPILED
A.ɵfac = function A_Factory(t) { return new (t || A)(); };
// TRANSPILED
refactor(core): rename ngComponentDef to ɵcmp (#33088) Component defs are not considered public API, so the property that contains them should be prefixed with Angular's marker for "private" ('ɵ') to discourage apps from relying on def APIs directly. This commit adds the prefix and shortens the name from `ngComponentDef` to `cmp`. This is because property names cannot be minified by Uglify without turning on property mangling (which most apps have turned off) and are thus size-sensitive. Note that the other "defs" (ngDirectiveDef, etc) will be prefixed and shortened in follow-up PRs, in an attempt to limit how large and conflict-y this change is. PR Close #33088
2019-10-10 17:57:15 -04:00
A.ɵcmp = ɵngcc0.ɵɵdefineComponent({ type: A, selectors: [["a"]], decls: 1, vars: 1, template: function A_Template(rf, ctx) { if (rf & 1) {
refactor(ivy): Move instructions back to ɵɵ (#30546) There is an encoding issue with using delta `Δ`, where the browser will attempt to detect the file encoding if the character set is not explicitly declared on a `<script/>` tag, and Chrome will find the `Δ` character and decide it is window-1252 encoding, which misinterprets the `Δ` character to be some other character that is not a valid JS identifier character So back to the frog eyes we go. ``` __ /ɵɵ\ ( -- ) - I am ineffable. I am forever. _/ \_ / \ / \ == == == ``` PR Close #30546
2019-05-17 21:49:21 -04:00
ɵngcc0.ɵɵtext(0);
fix(ivy): ngcc should not emit TypeScript syntax (#27051) If a template contains specific TypeScript syntax, such as a non-null assertion, the code that is emitted from ngcc into a JavaScript bundle should not retain such syntax as it is invalid in JS. A full-blown TypeScript emit of a complete ts.SourceFile would be required to be able to emit JS and possibly downlevel into a lower language target, which is not an option for ngcc as it currently operates on partial ASTs, not full source files. Instead, ngtsc no longer produces TypeScript specific syntax in the first place, such that TypeScript print logic will only generate JS code. PR Close #27051
2018-12-10 11:34:56 -05:00
} if (rf & 2) {
feat(ivy): add ɵɵtextInterpolateX instructions (#30011) - `ɵɵtextBinding(..., ɵɵinterpolationX())` instructions will now just be `ɵɵtextInterpolate(...)` instructions PR Close #30011
2019-04-23 23:40:05 -04:00
ɵngcc0.ɵɵtextInterpolate(ctx.person.name);
fix(ngcc): render adjacent statements after static properties (#33630) See https://github.com/angular/angular/pull/33337#issuecomment-545487737 Fixes FW-1664 PR Close #33630
2019-11-06 12:03:56 -05:00
} }, encapsulation: 2 });`);
const addAdjacentStatementsSpy = testFormatter.addAdjacentStatements as jasmine.Spy;
fix(ngcc): do not emit ES2015 code in ES5 files (#33514) Previously, ngcc's `Renderer` would add some constants in the processed files which were emitted as ES2015 code (e.g. `const` declarations). This would result in invalid ES5 generated code that would break when run on browsers that do not support the emitted format. This commit fixes it by adding a `printStatement()` method to `RenderingFormatter`, which can convert statements to JavaScript code in a suitable format for the corresponding `RenderingFormatter`. Additionally, the `translateExpression()` and `translateStatement()` ngtsc helper methods are augmented to accept an extra hint to know whether the code needs to be translated to ES5 format or not. Fixes #32665 PR Close #33514
2019-11-04 12:29:01 -05:00
expect(addAdjacentStatementsSpy.calls.first().args[2]).toEqual(`// TRANSPILED
fix(ivy): move setClassMetadata calls into a pure iife (#33337) This commit transforms the setClassMetadata calls generated by ngtsc from: ```typescript /*@__PURE__*/ setClassMetadata(...); ``` to: ```typescript /*@__PURE__*/ (function() { setClassMetadata(...); })(); ``` Without the IIFE, terser won't remove these function calls because the function calls have arguments that themselves are function calls or other impure expressions. In order to make the whole block be DCE-ed by terser, we wrap it into IIFE and mark the IIFE as pure. It should be noted that this change doesn't have any impact on CLI* with build-optimizer, which removes the whole setClassMetadata block within the webpack loader, so terser or webpack itself don't get to see it at all. This is done to prevent cross-chunk retention issues caused by webpack's internal module registry. * actually we do expect a short-term size regression while https://github.com/angular/angular-cli/pull/16228 is merged and released in the next rc of the CLI. But long term this change does nothing to CLI + build-optimizer configuration and is done primarly to correct the seemingly correct but non-function PURE annotation that builds not using build-optimizer could rely on. PR Close #33337
2019-07-31 18:20:56 -04:00
/*@__PURE__*/ (function () { ɵngcc0.ɵsetClassMetadata(A, [{
feat(ivy): emit module scope metadata using pure function call (#29598) Prior to this change, all module metadata would be included in the `defineNgModule` call that is set as the `ngModuleDef` field of module types. Part of the metadata is scope information like declarations, imports and exports that is used for computing the transitive module scope in JIT environments, preventing those references from being tree-shaken for production builds. This change moves the metadata for scope computations to a pure function call that patches the scope references onto the module type. Because the function is marked pure, it may be tree-shaken out during production builds such that references to declarations and exports are dropped, which in turn allows for tree-shaken any declaration that is not otherwise referenced. Fixes #28077, FW-1035 PR Close #29598
2019-03-29 16:31:22 -04:00
type: Component,
args: [{ selector: 'a', template: '{{ person!.name }}' }]
fix(ivy): move setClassMetadata calls into a pure iife (#33337) This commit transforms the setClassMetadata calls generated by ngtsc from: ```typescript /*@__PURE__*/ setClassMetadata(...); ``` to: ```typescript /*@__PURE__*/ (function() { setClassMetadata(...); })(); ``` Without the IIFE, terser won't remove these function calls because the function calls have arguments that themselves are function calls or other impure expressions. In order to make the whole block be DCE-ed by terser, we wrap it into IIFE and mark the IIFE as pure. It should be noted that this change doesn't have any impact on CLI* with build-optimizer, which removes the whole setClassMetadata block within the webpack loader, so terser or webpack itself don't get to see it at all. This is done to prevent cross-chunk retention issues caused by webpack's internal module registry. * actually we do expect a short-term size regression while https://github.com/angular/angular-cli/pull/16228 is merged and released in the next rc of the CLI. But long term this change does nothing to CLI + build-optimizer configuration and is done primarly to correct the seemingly correct but non-function PURE annotation that builds not using build-optimizer could rely on. PR Close #33337
2019-07-31 18:20:56 -04:00
}], null, null); })();`);
refactor(ivy): implement a virtual file-system layer in ngtsc + ngcc (#30921) To improve cross platform support, all file access (and path manipulation) is now done through a well known interface (`FileSystem`). For testing a number of `MockFileSystem` implementations are provided. These provide an in-memory file-system which emulates operating systems like OS/X, Unix and Windows. The current file system is always available via the static method, `FileSystem.getFileSystem()`. This is also used by a number of static methods on `AbsoluteFsPath` and `PathSegment`, to avoid having to pass `FileSystem` objects around all the time. The result of this is that one must be careful to ensure that the file-system has been initialized before using any of these static methods. To prevent this happening accidentally the current file system always starts out as an instance of `InvalidFileSystem`, which will throw an error if any of its methods are called. You can set the current file-system by calling `FileSystem.setFileSystem()`. During testing you can call the helper function `initMockFileSystem(os)` which takes a string name of the OS to emulate, and will also monkey-patch aspects of the TypeScript library to ensure that TS is also using the current file-system. Finally there is the `NgtscCompilerHost` to be used for any TypeScript compilation, which uses a given file-system. All tests that interact with the file-system should be tested against each of the mock file-systems. A series of helpers have been provided to support such tests: * `runInEachFileSystem()` - wrap your tests in this helper to run all the wrapped tests in each of the mock file-systems. * `addTestFilesToFileSystem()` - use this to add files and their contents to the mock file system for testing. * `loadTestFilesFromDisk()` - use this to load a mirror image of files on disk into the in-memory mock file-system. * `loadFakeCore()` - use this to load a fake version of `@angular/core` into the mock file-system. All ngcc and ngtsc source and tests now use this virtual file-system setup. PR Close #30921
2019-06-06 15:22:32 -04:00
});
fix(ivy): ngcc should not emit TypeScript syntax (#27051) If a template contains specific TypeScript syntax, such as a non-null assertion, the code that is emitted from ngcc into a JavaScript bundle should not retain such syntax as it is invalid in JS. A full-blown TypeScript emit of a complete ts.SourceFile would be required to be able to emit JS and possibly downlevel into a lower language target, which is not an option for ngcc as it currently operates on partial ASTs, not full source files. Instead, ngtsc no longer produces TypeScript specific syntax in the first place, such that TypeScript print logic will only generate JS code. PR Close #27051
2018-12-10 11:34:56 -05:00
feat(ivy): implement esm2015 and esm5 ngcc file renderers (#24897) PR Close #24897
2018-07-16 05:23:37 -04:00
refactor(ivy): implement a virtual file-system layer in ngtsc + ngcc (#30921) To improve cross platform support, all file access (and path manipulation) is now done through a well known interface (`FileSystem`). For testing a number of `MockFileSystem` implementations are provided. These provide an in-memory file-system which emulates operating systems like OS/X, Unix and Windows. The current file system is always available via the static method, `FileSystem.getFileSystem()`. This is also used by a number of static methods on `AbsoluteFsPath` and `PathSegment`, to avoid having to pass `FileSystem` objects around all the time. The result of this is that one must be careful to ensure that the file-system has been initialized before using any of these static methods. To prevent this happening accidentally the current file system always starts out as an instance of `InvalidFileSystem`, which will throw an error if any of its methods are called. You can set the current file-system by calling `FileSystem.setFileSystem()`. During testing you can call the helper function `initMockFileSystem(os)` which takes a string name of the OS to emulate, and will also monkey-patch aspects of the TypeScript library to ensure that TS is also using the current file-system. Finally there is the `NgtscCompilerHost` to be used for any TypeScript compilation, which uses a given file-system. All tests that interact with the file-system should be tested against each of the mock file-systems. A series of helpers have been provided to support such tests: * `runInEachFileSystem()` - wrap your tests in this helper to run all the wrapped tests in each of the mock file-systems. * `addTestFilesToFileSystem()` - use this to add files and their contents to the mock file system for testing. * `loadTestFilesFromDisk()` - use this to load a mirror image of files on disk into the in-memory mock file-system. * `loadFakeCore()` - use this to load a fake version of `@angular/core` into the mock file-system. All ngcc and ngtsc source and tests now use this virtual file-system setup. PR Close #30921
2019-06-06 15:22:32 -04:00
describe('calling RenderingFormatter methods', () => {
it('should call addImports with the source code and info about the core Angular library.',
() => {
const {renderer, decorationAnalyses, switchMarkerAnalyses, privateDeclarationsAnalyses,
testFormatter} = createTestRenderer('test-package', [INPUT_PROGRAM]);
const result = renderer.renderProgram(
decorationAnalyses, switchMarkerAnalyses, privateDeclarationsAnalyses);
const addImportsSpy = testFormatter.addImports as jasmine.Spy;
expect(addImportsSpy.calls.first().args[0].toString()).toEqual(RENDERED_CONTENTS);
expect(addImportsSpy.calls.first().args[1]).toEqual([
{specifier: '@angular/core', qualifier: 'ɵngcc0'}
]);
});
it('should call addDefinitions with the source code, the analyzed class and the rendered definitions.',
() => {
const {renderer, decorationAnalyses, switchMarkerAnalyses, privateDeclarationsAnalyses,
testFormatter} = createTestRenderer('test-package', [INPUT_PROGRAM]);
fix(ngcc): render adjacent statements after static properties (#33630) See https://github.com/angular/angular/pull/33337#issuecomment-545487737 Fixes FW-1664 PR Close #33630
2019-11-06 12:03:56 -05:00
renderer.renderProgram(
refactor(ivy): implement a virtual file-system layer in ngtsc + ngcc (#30921) To improve cross platform support, all file access (and path manipulation) is now done through a well known interface (`FileSystem`). For testing a number of `MockFileSystem` implementations are provided. These provide an in-memory file-system which emulates operating systems like OS/X, Unix and Windows. The current file system is always available via the static method, `FileSystem.getFileSystem()`. This is also used by a number of static methods on `AbsoluteFsPath` and `PathSegment`, to avoid having to pass `FileSystem` objects around all the time. The result of this is that one must be careful to ensure that the file-system has been initialized before using any of these static methods. To prevent this happening accidentally the current file system always starts out as an instance of `InvalidFileSystem`, which will throw an error if any of its methods are called. You can set the current file-system by calling `FileSystem.setFileSystem()`. During testing you can call the helper function `initMockFileSystem(os)` which takes a string name of the OS to emulate, and will also monkey-patch aspects of the TypeScript library to ensure that TS is also using the current file-system. Finally there is the `NgtscCompilerHost` to be used for any TypeScript compilation, which uses a given file-system. All tests that interact with the file-system should be tested against each of the mock file-systems. A series of helpers have been provided to support such tests: * `runInEachFileSystem()` - wrap your tests in this helper to run all the wrapped tests in each of the mock file-systems. * `addTestFilesToFileSystem()` - use this to add files and their contents to the mock file system for testing. * `loadTestFilesFromDisk()` - use this to load a mirror image of files on disk into the in-memory mock file-system. * `loadFakeCore()` - use this to load a fake version of `@angular/core` into the mock file-system. All ngcc and ngtsc source and tests now use this virtual file-system setup. PR Close #30921
2019-06-06 15:22:32 -04:00
decorationAnalyses, switchMarkerAnalyses, privateDeclarationsAnalyses);
const addDefinitionsSpy = testFormatter.addDefinitions as jasmine.Spy;
expect(addDefinitionsSpy.calls.first().args[0].toString()).toEqual(RENDERED_CONTENTS);
expect(addDefinitionsSpy.calls.first().args[1]).toEqual(jasmine.objectContaining({
name: 'A',
decorators: [jasmine.objectContaining({name: 'Directive'})]
}));
fix(ngcc): do not emit ES2015 code in ES5 files (#33514) Previously, ngcc's `Renderer` would add some constants in the processed files which were emitted as ES2015 code (e.g. `const` declarations). This would result in invalid ES5 generated code that would break when run on browsers that do not support the emitted format. This commit fixes it by adding a `printStatement()` method to `RenderingFormatter`, which can convert statements to JavaScript code in a suitable format for the corresponding `RenderingFormatter`. Additionally, the `translateExpression()` and `translateStatement()` ngtsc helper methods are augmented to accept an extra hint to know whether the code needs to be translated to ES5 format or not. Fixes #32665 PR Close #33514
2019-11-04 12:29:01 -05:00
expect(addDefinitionsSpy.calls.first().args[2]).toEqual(`// TRANSPILED
A.ɵfac = function A_Factory(t) { return new (t || A)(); };
// TRANSPILED
fix(ngcc): render adjacent statements after static properties (#33630) See https://github.com/angular/angular/pull/33337#issuecomment-545487737 Fixes FW-1664 PR Close #33630
2019-11-06 12:03:56 -05:00
A.ɵdir = ɵngcc0.ɵɵdefineDirective({ type: A, selectors: [["", "a", ""]] });`);
});
it('should call addAdjacentStatements with the source code, the analyzed class and the rendered statements',
() => {
const {renderer, decorationAnalyses, switchMarkerAnalyses, privateDeclarationsAnalyses,
testFormatter} = createTestRenderer('test-package', [INPUT_PROGRAM]);
renderer.renderProgram(
decorationAnalyses, switchMarkerAnalyses, privateDeclarationsAnalyses);
const addAdjacentStatementsSpy = testFormatter.addAdjacentStatements as jasmine.Spy;
expect(addAdjacentStatementsSpy.calls.first().args[0].toString())
.toEqual(RENDERED_CONTENTS);
expect(addAdjacentStatementsSpy.calls.first().args[1])
.toEqual(jasmine.objectContaining(
{name: 'A', decorators: [jasmine.objectContaining({name: 'Directive'})]}));
fix(ngcc): do not emit ES2015 code in ES5 files (#33514) Previously, ngcc's `Renderer` would add some constants in the processed files which were emitted as ES2015 code (e.g. `const` declarations). This would result in invalid ES5 generated code that would break when run on browsers that do not support the emitted format. This commit fixes it by adding a `printStatement()` method to `RenderingFormatter`, which can convert statements to JavaScript code in a suitable format for the corresponding `RenderingFormatter`. Additionally, the `translateExpression()` and `translateStatement()` ngtsc helper methods are augmented to accept an extra hint to know whether the code needs to be translated to ES5 format or not. Fixes #32665 PR Close #33514
2019-11-04 12:29:01 -05:00
expect(addAdjacentStatementsSpy.calls.first().args[2]).toEqual(`// TRANSPILED
fix(ivy): move setClassMetadata calls into a pure iife (#33337) This commit transforms the setClassMetadata calls generated by ngtsc from: ```typescript /*@__PURE__*/ setClassMetadata(...); ``` to: ```typescript /*@__PURE__*/ (function() { setClassMetadata(...); })(); ``` Without the IIFE, terser won't remove these function calls because the function calls have arguments that themselves are function calls or other impure expressions. In order to make the whole block be DCE-ed by terser, we wrap it into IIFE and mark the IIFE as pure. It should be noted that this change doesn't have any impact on CLI* with build-optimizer, which removes the whole setClassMetadata block within the webpack loader, so terser or webpack itself don't get to see it at all. This is done to prevent cross-chunk retention issues caused by webpack's internal module registry. * actually we do expect a short-term size regression while https://github.com/angular/angular-cli/pull/16228 is merged and released in the next rc of the CLI. But long term this change does nothing to CLI + build-optimizer configuration and is done primarly to correct the seemingly correct but non-function PURE annotation that builds not using build-optimizer could rely on. PR Close #33337
2019-07-31 18:20:56 -04:00
/*@__PURE__*/ (function () { ɵngcc0.ɵsetClassMetadata(A, [{
feat(ivy): emit metadata along with all Angular types (#26860) This commit causes a call to setClassMetadata() to be emitted for every type being compiled by ngtsc (every Angular type). With this metadata, the TestBed should be able to recompile these classes when overriding decorator information. Testing strategy: Tests in the previous commit for generateSetClassMetadataCall() verify that the metadata as generated is correct. This commit enables the generation for each DecoratorHandler, and a test is added to ngtsc_spec to verify all decorated types have metadata generated for them. PR Close #26860
2018-10-30 14:19:10 -04:00
type: Directive,
args: [{ selector: '[a]' }]
fix(ivy): move setClassMetadata calls into a pure iife (#33337) This commit transforms the setClassMetadata calls generated by ngtsc from: ```typescript /*@__PURE__*/ setClassMetadata(...); ``` to: ```typescript /*@__PURE__*/ (function() { setClassMetadata(...); })(); ``` Without the IIFE, terser won't remove these function calls because the function calls have arguments that themselves are function calls or other impure expressions. In order to make the whole block be DCE-ed by terser, we wrap it into IIFE and mark the IIFE as pure. It should be noted that this change doesn't have any impact on CLI* with build-optimizer, which removes the whole setClassMetadata block within the webpack loader, so terser or webpack itself don't get to see it at all. This is done to prevent cross-chunk retention issues caused by webpack's internal module registry. * actually we do expect a short-term size regression while https://github.com/angular/angular-cli/pull/16228 is merged and released in the next rc of the CLI. But long term this change does nothing to CLI + build-optimizer configuration and is done primarly to correct the seemingly correct but non-function PURE annotation that builds not using build-optimizer could rely on. PR Close #33337
2019-07-31 18:20:56 -04:00
}], null, null); })();`);
refactor(ivy): implement a virtual file-system layer in ngtsc + ngcc (#30921) To improve cross platform support, all file access (and path manipulation) is now done through a well known interface (`FileSystem`). For testing a number of `MockFileSystem` implementations are provided. These provide an in-memory file-system which emulates operating systems like OS/X, Unix and Windows. The current file system is always available via the static method, `FileSystem.getFileSystem()`. This is also used by a number of static methods on `AbsoluteFsPath` and `PathSegment`, to avoid having to pass `FileSystem` objects around all the time. The result of this is that one must be careful to ensure that the file-system has been initialized before using any of these static methods. To prevent this happening accidentally the current file system always starts out as an instance of `InvalidFileSystem`, which will throw an error if any of its methods are called. You can set the current file-system by calling `FileSystem.setFileSystem()`. During testing you can call the helper function `initMockFileSystem(os)` which takes a string name of the OS to emulate, and will also monkey-patch aspects of the TypeScript library to ensure that TS is also using the current file-system. Finally there is the `NgtscCompilerHost` to be used for any TypeScript compilation, which uses a given file-system. All tests that interact with the file-system should be tested against each of the mock file-systems. A series of helpers have been provided to support such tests: * `runInEachFileSystem()` - wrap your tests in this helper to run all the wrapped tests in each of the mock file-systems. * `addTestFilesToFileSystem()` - use this to add files and their contents to the mock file system for testing. * `loadTestFilesFromDisk()` - use this to load a mirror image of files on disk into the in-memory mock file-system. * `loadFakeCore()` - use this to load a fake version of `@angular/core` into the mock file-system. All ngcc and ngtsc source and tests now use this virtual file-system setup. PR Close #30921
2019-06-06 15:22:32 -04:00
});
it('should call removeDecorators with the source code, a map of class decorators that have been analyzed',
() => {
const {renderer, decorationAnalyses, switchMarkerAnalyses, privateDeclarationsAnalyses,
testFormatter} = createTestRenderer('test-package', [INPUT_PROGRAM]);
fix(ngcc): do not emit ES2015 code in ES5 files (#33514) Previously, ngcc's `Renderer` would add some constants in the processed files which were emitted as ES2015 code (e.g. `const` declarations). This would result in invalid ES5 generated code that would break when run on browsers that do not support the emitted format. This commit fixes it by adding a `printStatement()` method to `RenderingFormatter`, which can convert statements to JavaScript code in a suitable format for the corresponding `RenderingFormatter`. Additionally, the `translateExpression()` and `translateStatement()` ngtsc helper methods are augmented to accept an extra hint to know whether the code needs to be translated to ES5 format or not. Fixes #32665 PR Close #33514
2019-11-04 12:29:01 -05:00
renderer.renderProgram(
refactor(ivy): implement a virtual file-system layer in ngtsc + ngcc (#30921) To improve cross platform support, all file access (and path manipulation) is now done through a well known interface (`FileSystem`). For testing a number of `MockFileSystem` implementations are provided. These provide an in-memory file-system which emulates operating systems like OS/X, Unix and Windows. The current file system is always available via the static method, `FileSystem.getFileSystem()`. This is also used by a number of static methods on `AbsoluteFsPath` and `PathSegment`, to avoid having to pass `FileSystem` objects around all the time. The result of this is that one must be careful to ensure that the file-system has been initialized before using any of these static methods. To prevent this happening accidentally the current file system always starts out as an instance of `InvalidFileSystem`, which will throw an error if any of its methods are called. You can set the current file-system by calling `FileSystem.setFileSystem()`. During testing you can call the helper function `initMockFileSystem(os)` which takes a string name of the OS to emulate, and will also monkey-patch aspects of the TypeScript library to ensure that TS is also using the current file-system. Finally there is the `NgtscCompilerHost` to be used for any TypeScript compilation, which uses a given file-system. All tests that interact with the file-system should be tested against each of the mock file-systems. A series of helpers have been provided to support such tests: * `runInEachFileSystem()` - wrap your tests in this helper to run all the wrapped tests in each of the mock file-systems. * `addTestFilesToFileSystem()` - use this to add files and their contents to the mock file system for testing. * `loadTestFilesFromDisk()` - use this to load a mirror image of files on disk into the in-memory mock file-system. * `loadFakeCore()` - use this to load a fake version of `@angular/core` into the mock file-system. All ngcc and ngtsc source and tests now use this virtual file-system setup. PR Close #30921
2019-06-06 15:22:32 -04:00
decorationAnalyses, switchMarkerAnalyses, privateDeclarationsAnalyses);
const removeDecoratorsSpy = testFormatter.removeDecorators as jasmine.Spy;
expect(removeDecoratorsSpy.calls.first().args[0].toString())
.toEqual(RENDERED_CONTENTS);
// Each map key is the TS node of the decorator container
// Each map value is an array of TS nodes that are the decorators to remove
const map = removeDecoratorsSpy.calls.first().args[1] as Map<ts.Node, ts.Node[]>;
const keys = Array.from(map.keys());
expect(keys.length).toEqual(1);
expect(keys[0].getText())
.toEqual(`[\n { type: Directive, args: [{ selector: '[a]' }] }\n]`);
const values = Array.from(map.values());
expect(values.length).toEqual(1);
expect(values[0].length).toEqual(1);
expect(values[0][0].getText())
.toEqual(`{ type: Directive, args: [{ selector: '[a]' }] }`);
});
fix(ngcc): render adjacent statements after static properties (#33630) See https://github.com/angular/angular/pull/33337#issuecomment-545487737 Fixes FW-1664 PR Close #33630
2019-11-06 12:03:56 -05:00
it('should render definitions as static fields', () => {
fix(ivy): ngcc emits static fields before extra statements (#31933) This commit changes the emit order of ngcc when a class has multiple static fields being assigned. Previously, ngcc would emit each static field followed immediately by any extra statements specified for that field. This causes issues with downstream tooling such as build optimizer, which expects all of the static fields for a class to be grouped together. ngtsc already groups static fields and additional statements. This commit changes ngcc's ordering to match. PR Close #31933
2019-07-30 18:57:46 -04:00
const {renderer, decorationAnalyses, switchMarkerAnalyses, privateDeclarationsAnalyses,
testFormatter} = createTestRenderer('test-package', [NGMODULE_PROGRAM]);
renderer.renderProgram(
decorationAnalyses, switchMarkerAnalyses, privateDeclarationsAnalyses);
const addDefinitionsSpy = testFormatter.addDefinitions as jasmine.Spy;
const definitions: string = addDefinitionsSpy.calls.first().args[2];
fix(ngcc): render adjacent statements after static properties (#33630) See https://github.com/angular/angular/pull/33337#issuecomment-545487737 Fixes FW-1664 PR Close #33630
2019-11-06 12:03:56 -05:00
expect(definitions).toContain('A.ɵmod = ɵngcc0.ɵɵdefineNgModule(');
expect(definitions).toContain('A.ɵinj = ɵngcc0.ɵɵdefineInjector(');
});
it('should render adjacent statements', () => {
const {renderer, decorationAnalyses, switchMarkerAnalyses, privateDeclarationsAnalyses,
testFormatter} = createTestRenderer('test-package', [NGMODULE_PROGRAM]);
renderer.renderProgram(
decorationAnalyses, switchMarkerAnalyses, privateDeclarationsAnalyses);
const addAdjacentStatementsSpy = testFormatter.addAdjacentStatements as jasmine.Spy;
const statements: string = addAdjacentStatementsSpy.calls.first().args[2];
expect(statements).toContain('ɵsetClassMetadata(A');
fix(ivy): ngcc emits static fields before extra statements (#31933) This commit changes the emit order of ngcc when a class has multiple static fields being assigned. Previously, ngcc would emit each static field followed immediately by any extra statements specified for that field. This causes issues with downstream tooling such as build optimizer, which expects all of the static fields for a class to be grouped together. ngtsc already groups static fields and additional statements. This commit changes ngcc's ordering to match. PR Close #31933
2019-07-30 18:57:46 -04:00
});
fix(ngcc): render new definitions using the inner name of the class (#33533) When decorating classes with ivy definitions (e.g. `ɵfac` or `ɵdir`) the inner name of the class declaration must be used. This is because in ES5 the definitions are inside the class's IIFE where the outer declaration has not yet been initialized. PR Close #33533
2019-11-01 12:55:10 -04:00
it('should render directives using the inner class name if different from outer', () => {
const {renderer, decorationAnalyses, switchMarkerAnalyses, privateDeclarationsAnalyses,
testFormatter} =
createTestRenderer(
'test-package', [{
name: _('/node_modules/test-package/src/file.js'),
contents: `
import { Directive } from '@angular/core';
var OuterClass = /** @class */ (function () {
function InnerClass() {}
return InnerClass;
}());
OuterClass.decorators = [{ type: Directive, args: [{ selector: '[test]' }]
export OuterClass;`
}],
undefined, undefined, /* isEs5 */ true);
renderer.renderProgram(
decorationAnalyses, switchMarkerAnalyses, privateDeclarationsAnalyses);
const addDefinitionsSpy = testFormatter.addDefinitions as jasmine.Spy;
fix(ngcc): render adjacent statements after static properties (#33630) See https://github.com/angular/angular/pull/33337#issuecomment-545487737 Fixes FW-1664 PR Close #33630
2019-11-06 12:03:56 -05:00
const definitions = addDefinitionsSpy.calls.first().args[2];
expect(definitions).toContain('InnerClass.ɵfac');
expect(definitions).toContain('new (t || InnerClass)');
expect(definitions).toContain('InnerClass.ɵdir');
expect(definitions).toContain('type: InnerClass');
const addAdjacentStatementsSpy = testFormatter.addAdjacentStatements as jasmine.Spy;
const statements = addAdjacentStatementsSpy.calls.first().args[2];
expect(statements).toContain('ɵsetClassMetadata(InnerClass');
fix(ngcc): render new definitions using the inner name of the class (#33533) When decorating classes with ivy definitions (e.g. `ɵfac` or `ɵdir`) the inner name of the class declaration must be used. This is because in ES5 the definitions are inside the class's IIFE where the outer declaration has not yet been initialized. PR Close #33533
2019-11-01 12:55:10 -04:00
});
it('should render injectables using the inner class name if different from outer', () => {
const {renderer, decorationAnalyses, switchMarkerAnalyses, privateDeclarationsAnalyses,
testFormatter} =
createTestRenderer(
'test-package', [{
name: _('/node_modules/test-package/src/file.js'),
contents: `
import { Injectable } from '@angular/core';
var OuterClass = /** @class */ (function () {
function InnerClass() {}
return InnerClass;
}());
OuterClass.decorators = [{ type: Injectable }]
export OuterClass;`
}],
undefined, undefined, /* isEs5 */ true);
renderer.renderProgram(
decorationAnalyses, switchMarkerAnalyses, privateDeclarationsAnalyses);
const addDefinitionsSpy = testFormatter.addDefinitions as jasmine.Spy;
fix(ngcc): render adjacent statements after static properties (#33630) See https://github.com/angular/angular/pull/33337#issuecomment-545487737 Fixes FW-1664 PR Close #33630
2019-11-06 12:03:56 -05:00
const definitions = addDefinitionsSpy.calls.first().args[2];
expect(definitions).toContain('InnerClass.ɵfac');
expect(definitions).toContain('new (t || InnerClass)()');
expect(definitions).toContain('InnerClass.ɵprov');
expect(definitions).toContain('token: InnerClass');
const addAdjacentStatementsSpy = testFormatter.addAdjacentStatements as jasmine.Spy;
const statements = addAdjacentStatementsSpy.calls.first().args[2];
expect(statements).toContain('ɵsetClassMetadata(InnerClass');
fix(ngcc): render new definitions using the inner name of the class (#33533) When decorating classes with ivy definitions (e.g. `ɵfac` or `ɵdir`) the inner name of the class declaration must be used. This is because in ES5 the definitions are inside the class's IIFE where the outer declaration has not yet been initialized. PR Close #33533
2019-11-01 12:55:10 -04:00
});
it('should render ng-modules using the inner class name if different from outer', () => {
const {renderer, decorationAnalyses, switchMarkerAnalyses, privateDeclarationsAnalyses,
testFormatter} =
createTestRenderer(
'test-package', [{
name: _('/node_modules/test-package/src/file.js'),
contents: `
import { NgModule, Directive } from '@angular/core';
var DirectiveClass = /** @class */ (function () {
function DirectiveClass() {}
return DirectiveClass;
}());
DirectiveClass.decorators = [{ type: Directive, args: [{selector: 'x'}] }];
var OuterClass = /** @class */ (function () {
function InnerClass() {}
return InnerClass;
}());
OuterClass.decorators = [{ type: NgModule, args: [{declarations: [DirectiveClass], exports: [DirectiveClass]}]
export OuterClass;`
}],
undefined, undefined, /* isEs5 */ true);
renderer.renderProgram(
decorationAnalyses, switchMarkerAnalyses, privateDeclarationsAnalyses);
const addDefinitionsSpy = testFormatter.addDefinitions as jasmine.Spy;
fix(ngcc): render adjacent statements after static properties (#33630) See https://github.com/angular/angular/pull/33337#issuecomment-545487737 Fixes FW-1664 PR Close #33630
2019-11-06 12:03:56 -05:00
const definitions = addDefinitionsSpy.calls.all()[1].args[2];
expect(definitions).toContain('InnerClass.ɵmod');
expect(definitions).toContain('type: InnerClass');
const addAdjacentStatementsSpy = testFormatter.addAdjacentStatements as jasmine.Spy;
const statements = addAdjacentStatementsSpy.calls.all()[1].args[2];
expect(statements).toContain('ɵɵsetNgModuleScope(InnerClass');
expect(statements).toContain('ɵsetClassMetadata(InnerClass');
fix(ngcc): render new definitions using the inner name of the class (#33533) When decorating classes with ivy definitions (e.g. `ɵfac` or `ɵdir`) the inner name of the class declaration must be used. This is because in ES5 the definitions are inside the class's IIFE where the outer declaration has not yet been initialized. PR Close #33533
2019-11-01 12:55:10 -04:00
});
it('should render pipes using the inner class name if different from outer', () => {
const {renderer, decorationAnalyses, switchMarkerAnalyses, privateDeclarationsAnalyses,
testFormatter} =
createTestRenderer(
'test-package', [{
name: _('/node_modules/test-package/src/file.js'),
contents: `
import { Pipe } from '@angular/core';
var OuterClass = /** @class */ (function () {
function InnerClass() {}
return InnerClass;
}());
OuterClass.decorators = [{ type: Pipe, args: [{name: 'pipe'}]
export OuterClass;`
}],
undefined, undefined, /* isEs5 */ true);
renderer.renderProgram(
decorationAnalyses, switchMarkerAnalyses, privateDeclarationsAnalyses);
const addDefinitionsSpy = testFormatter.addDefinitions as jasmine.Spy;
fix(ngcc): render adjacent statements after static properties (#33630) See https://github.com/angular/angular/pull/33337#issuecomment-545487737 Fixes FW-1664 PR Close #33630
2019-11-06 12:03:56 -05:00
const definitions = addDefinitionsSpy.calls.first().args[2];
expect(definitions).toContain('InnerClass.ɵfac');
expect(definitions).toContain('new (t || InnerClass)()');
expect(definitions).toContain('InnerClass.ɵpipe');
const addAdjacentStatementsSpy = testFormatter.addAdjacentStatements as jasmine.Spy;
const statements = addAdjacentStatementsSpy.calls.first().args[2];
expect(statements).toContain('ɵsetClassMetadata(InnerClass');
fix(ngcc): render new definitions using the inner name of the class (#33533) When decorating classes with ivy definitions (e.g. `ɵfac` or `ɵdir`) the inner name of the class declaration must be used. This is because in ES5 the definitions are inside the class's IIFE where the outer declaration has not yet been initialized. PR Close #33533
2019-11-01 12:55:10 -04:00
});
refactor(ivy): remove ngBaseDef (#33264) Removes `ngBaseDef` from the compiler and any runtime code that was still referring to it. In the cases where we'd previously generate a base def we now generate a definition for an abstract directive. PR Close #33264
2019-10-25 13:45:08 -04:00
it('should render classes without decorators if class fields are decorated', () => {
refactor(ivy): implement a virtual file-system layer in ngtsc + ngcc (#30921) To improve cross platform support, all file access (and path manipulation) is now done through a well known interface (`FileSystem`). For testing a number of `MockFileSystem` implementations are provided. These provide an in-memory file-system which emulates operating systems like OS/X, Unix and Windows. The current file system is always available via the static method, `FileSystem.getFileSystem()`. This is also used by a number of static methods on `AbsoluteFsPath` and `PathSegment`, to avoid having to pass `FileSystem` objects around all the time. The result of this is that one must be careful to ensure that the file-system has been initialized before using any of these static methods. To prevent this happening accidentally the current file system always starts out as an instance of `InvalidFileSystem`, which will throw an error if any of its methods are called. You can set the current file-system by calling `FileSystem.setFileSystem()`. During testing you can call the helper function `initMockFileSystem(os)` which takes a string name of the OS to emulate, and will also monkey-patch aspects of the TypeScript library to ensure that TS is also using the current file-system. Finally there is the `NgtscCompilerHost` to be used for any TypeScript compilation, which uses a given file-system. All tests that interact with the file-system should be tested against each of the mock file-systems. A series of helpers have been provided to support such tests: * `runInEachFileSystem()` - wrap your tests in this helper to run all the wrapped tests in each of the mock file-systems. * `addTestFilesToFileSystem()` - use this to add files and their contents to the mock file system for testing. * `loadTestFilesFromDisk()` - use this to load a mirror image of files on disk into the in-memory mock file-system. * `loadFakeCore()` - use this to load a fake version of `@angular/core` into the mock file-system. All ngcc and ngtsc source and tests now use this virtual file-system setup. PR Close #30921
2019-06-06 15:22:32 -04:00
const {renderer, decorationAnalyses, switchMarkerAnalyses, privateDeclarationsAnalyses,
fix(ivy): ngcc - do not analyze files outside the current package (#30591) Our module resolution prefers `.js` files over `.d.ts` files because occasionally libraries publish their typings in the same directory structure as the compiled JS files, i.e. adjacent to each other. The standard TS module resolution would pick up the typings file and add that to the `ts.Program` and so they would be ignored by our analyzers. But we need those JS files, if they are part of the current package. But this meant that we also bring in JS files from external imports from outside the package, which is not desired. This was happening for the `@fire/storage` enty-point that was importing the `firebase/storage` path. In this commit we solve this problem, for the case of imports coming from a completely different package, by saying that any file that is outside the package root directory must be an external import and so we do not analyze those files. This does not solve the potential problem of imports between secondary entry-points within a package but so far that does not appear to be a problem. PR Close #30591
2019-05-25 16:34:40 -04:00
testFormatter} =
createTestRenderer('test-package', [{
name: _('/node_modules/test-package/src/file.js'),
contents: `
refactor(ivy): implement a virtual file-system layer in ngtsc + ngcc (#30921) To improve cross platform support, all file access (and path manipulation) is now done through a well known interface (`FileSystem`). For testing a number of `MockFileSystem` implementations are provided. These provide an in-memory file-system which emulates operating systems like OS/X, Unix and Windows. The current file system is always available via the static method, `FileSystem.getFileSystem()`. This is also used by a number of static methods on `AbsoluteFsPath` and `PathSegment`, to avoid having to pass `FileSystem` objects around all the time. The result of this is that one must be careful to ensure that the file-system has been initialized before using any of these static methods. To prevent this happening accidentally the current file system always starts out as an instance of `InvalidFileSystem`, which will throw an error if any of its methods are called. You can set the current file-system by calling `FileSystem.setFileSystem()`. During testing you can call the helper function `initMockFileSystem(os)` which takes a string name of the OS to emulate, and will also monkey-patch aspects of the TypeScript library to ensure that TS is also using the current file-system. Finally there is the `NgtscCompilerHost` to be used for any TypeScript compilation, which uses a given file-system. All tests that interact with the file-system should be tested against each of the mock file-systems. A series of helpers have been provided to support such tests: * `runInEachFileSystem()` - wrap your tests in this helper to run all the wrapped tests in each of the mock file-systems. * `addTestFilesToFileSystem()` - use this to add files and their contents to the mock file system for testing. * `loadTestFilesFromDisk()` - use this to load a mirror image of files on disk into the in-memory mock file-system. * `loadFakeCore()` - use this to load a fake version of `@angular/core` into the mock file-system. All ngcc and ngtsc source and tests now use this virtual file-system setup. PR Close #30921
2019-06-06 15:22:32 -04:00
import { Directive, ViewChild } from '@angular/core';
export class UndecoratedBase { test = null; }
UndecoratedBase.propDecorators = {
test: [{
type: ViewChild,
args: ["test", {static: true}]
}],
};
`
fix(ivy): ngcc - do not analyze files outside the current package (#30591) Our module resolution prefers `.js` files over `.d.ts` files because occasionally libraries publish their typings in the same directory structure as the compiled JS files, i.e. adjacent to each other. The standard TS module resolution would pick up the typings file and add that to the `ts.Program` and so they would be ignored by our analyzers. But we need those JS files, if they are part of the current package. But this meant that we also bring in JS files from external imports from outside the package, which is not desired. This was happening for the `@fire/storage` enty-point that was importing the `firebase/storage` path. In this commit we solve this problem, for the case of imports coming from a completely different package, by saying that any file that is outside the package root directory must be an external import and so we do not analyze those files. This does not solve the potential problem of imports between secondary entry-points within a package but so far that does not appear to be a problem. PR Close #30591
2019-05-25 16:34:40 -04:00
}]);
refactor(ivy): implement a virtual file-system layer in ngtsc + ngcc (#30921) To improve cross platform support, all file access (and path manipulation) is now done through a well known interface (`FileSystem`). For testing a number of `MockFileSystem` implementations are provided. These provide an in-memory file-system which emulates operating systems like OS/X, Unix and Windows. The current file system is always available via the static method, `FileSystem.getFileSystem()`. This is also used by a number of static methods on `AbsoluteFsPath` and `PathSegment`, to avoid having to pass `FileSystem` objects around all the time. The result of this is that one must be careful to ensure that the file-system has been initialized before using any of these static methods. To prevent this happening accidentally the current file system always starts out as an instance of `InvalidFileSystem`, which will throw an error if any of its methods are called. You can set the current file-system by calling `FileSystem.setFileSystem()`. During testing you can call the helper function `initMockFileSystem(os)` which takes a string name of the OS to emulate, and will also monkey-patch aspects of the TypeScript library to ensure that TS is also using the current file-system. Finally there is the `NgtscCompilerHost` to be used for any TypeScript compilation, which uses a given file-system. All tests that interact with the file-system should be tested against each of the mock file-systems. A series of helpers have been provided to support such tests: * `runInEachFileSystem()` - wrap your tests in this helper to run all the wrapped tests in each of the mock file-systems. * `addTestFilesToFileSystem()` - use this to add files and their contents to the mock file system for testing. * `loadTestFilesFromDisk()` - use this to load a mirror image of files on disk into the in-memory mock file-system. * `loadFakeCore()` - use this to load a fake version of `@angular/core` into the mock file-system. All ngcc and ngtsc source and tests now use this virtual file-system setup. PR Close #30921
2019-06-06 15:22:32 -04:00
renderer.renderProgram(
decorationAnalyses, switchMarkerAnalyses, privateDeclarationsAnalyses);
const addDefinitionsSpy = testFormatter.addDefinitions as jasmine.Spy;
fix(ngcc): do not emit ES2015 code in ES5 files (#33514) Previously, ngcc's `Renderer` would add some constants in the processed files which were emitted as ES2015 code (e.g. `const` declarations). This would result in invalid ES5 generated code that would break when run on browsers that do not support the emitted format. This commit fixes it by adding a `printStatement()` method to `RenderingFormatter`, which can convert statements to JavaScript code in a suitable format for the corresponding `RenderingFormatter`. Additionally, the `translateExpression()` and `translateStatement()` ngtsc helper methods are augmented to accept an extra hint to know whether the code needs to be translated to ES5 format or not. Fixes #32665 PR Close #33514
2019-11-04 12:29:01 -05:00
expect(addDefinitionsSpy.calls.first().args[2]).toEqual(`// TRANSPILED
UndecoratedBase.ɵfac = function UndecoratedBase_Factory(t) { return new (t || UndecoratedBase)(); };
// TRANSPILED
perf(ivy): avoid generating selectors array for directives without a selector (#33431) Now that we've replaced `ngBaseDef` with an abstract directive definition, there are a lot more cases where we generate a directive definition without a selector. These changes make it so that we don't generate the `selectors` array if it's going to be empty. PR Close #33431
2019-10-27 05:59:23 -04:00
UndecoratedBase.ɵdir = ɵngcc0.ɵɵdefineDirective({ type: UndecoratedBase, viewQuery: function UndecoratedBase_Query(rf, ctx) { if (rf & 1) {
perf(ivy): avoid extra parameter in query instructions (#31667) Currently we always generate the `read` parameter for the view and content query instructions, however since most of the time the `read` parameter won't be set, we'll end up generating `null` which adds 5 bytes for each query when minified. These changes make it so that the `read` parameter only gets generated if it has a value. PR Close #31667
2019-07-20 06:32:29 -04:00
ɵngcc0.ɵɵstaticViewQuery(_c0, true);
fix(ivy): ngcc should process undecorated base classes (#30821) Currently undecorated classes are intentionally not processed with ngcc. This is causing unexpected behavior because decorator handlers such as `base_def.ts` are specifically interested in class definitions without top-level decorators, so that the base definition can be generated if there are Angular-specific class members. In order to ensure that undecorated base-classes work as expected with Ivy, we need to run the decorator handlers for all top-level class declarations (not only for those with decorators). This is similar to when `ngtsc` runs decorator handlers when analyzing source-files. Resolves FW-1355. Fixes https://github.com/angular/components/issues/16178 PR Close #30821
2019-06-03 12:41:47 -04:00
} if (rf & 2) {
var _t;
refactor(ivy): combine query load instructions (#32100) Combines the `loadViewQuery` and `loadContentQuery` instructions since they have the exact same internal logic. Based on a discussion here: https://github.com/angular/angular/pull/32067#pullrequestreview-273001730 PR Close #32100
2019-08-12 04:27:18 -04:00
ɵngcc0.ɵɵqueryRefresh(_t = ɵngcc0.ɵɵloadQuery()) && (ctx.test = _t.first);
fix(ivy): ngcc should process undecorated base classes (#30821) Currently undecorated classes are intentionally not processed with ngcc. This is causing unexpected behavior because decorator handlers such as `base_def.ts` are specifically interested in class definitions without top-level decorators, so that the base definition can be generated if there are Angular-specific class members. In order to ensure that undecorated base-classes work as expected with Ivy, we need to run the decorator handlers for all top-level class declarations (not only for those with decorators). This is similar to when `ngtsc` runs decorator handlers when analyzing source-files. Resolves FW-1355. Fixes https://github.com/angular/components/issues/16178 PR Close #30821
2019-06-03 12:41:47 -04:00
} } });`);
refactor(ivy): implement a virtual file-system layer in ngtsc + ngcc (#30921) To improve cross platform support, all file access (and path manipulation) is now done through a well known interface (`FileSystem`). For testing a number of `MockFileSystem` implementations are provided. These provide an in-memory file-system which emulates operating systems like OS/X, Unix and Windows. The current file system is always available via the static method, `FileSystem.getFileSystem()`. This is also used by a number of static methods on `AbsoluteFsPath` and `PathSegment`, to avoid having to pass `FileSystem` objects around all the time. The result of this is that one must be careful to ensure that the file-system has been initialized before using any of these static methods. To prevent this happening accidentally the current file system always starts out as an instance of `InvalidFileSystem`, which will throw an error if any of its methods are called. You can set the current file-system by calling `FileSystem.setFileSystem()`. During testing you can call the helper function `initMockFileSystem(os)` which takes a string name of the OS to emulate, and will also monkey-patch aspects of the TypeScript library to ensure that TS is also using the current file-system. Finally there is the `NgtscCompilerHost` to be used for any TypeScript compilation, which uses a given file-system. All tests that interact with the file-system should be tested against each of the mock file-systems. A series of helpers have been provided to support such tests: * `runInEachFileSystem()` - wrap your tests in this helper to run all the wrapped tests in each of the mock file-systems. * `addTestFilesToFileSystem()` - use this to add files and their contents to the mock file system for testing. * `loadTestFilesFromDisk()` - use this to load a mirror image of files on disk into the in-memory mock file-system. * `loadFakeCore()` - use this to load a fake version of `@angular/core` into the mock file-system. All ngcc and ngtsc source and tests now use this virtual file-system setup. PR Close #30921
2019-06-06 15:22:32 -04:00
});
it('should call renderImports after other abstract methods', () => {
// This allows the other methods to add additional imports if necessary
const {renderer, decorationAnalyses, switchMarkerAnalyses, privateDeclarationsAnalyses,
testFormatter} = createTestRenderer('test-package', [INPUT_PROGRAM]);
const addExportsSpy = testFormatter.addExports as jasmine.Spy;
const addDefinitionsSpy = testFormatter.addDefinitions as jasmine.Spy;
fix(ngcc): render adjacent statements after static properties (#33630) See https://github.com/angular/angular/pull/33337#issuecomment-545487737 Fixes FW-1664 PR Close #33630
2019-11-06 12:03:56 -05:00
const addAdjacentStatementsSpy = testFormatter.addAdjacentStatements as jasmine.Spy;
refactor(ivy): implement a virtual file-system layer in ngtsc + ngcc (#30921) To improve cross platform support, all file access (and path manipulation) is now done through a well known interface (`FileSystem`). For testing a number of `MockFileSystem` implementations are provided. These provide an in-memory file-system which emulates operating systems like OS/X, Unix and Windows. The current file system is always available via the static method, `FileSystem.getFileSystem()`. This is also used by a number of static methods on `AbsoluteFsPath` and `PathSegment`, to avoid having to pass `FileSystem` objects around all the time. The result of this is that one must be careful to ensure that the file-system has been initialized before using any of these static methods. To prevent this happening accidentally the current file system always starts out as an instance of `InvalidFileSystem`, which will throw an error if any of its methods are called. You can set the current file-system by calling `FileSystem.setFileSystem()`. During testing you can call the helper function `initMockFileSystem(os)` which takes a string name of the OS to emulate, and will also monkey-patch aspects of the TypeScript library to ensure that TS is also using the current file-system. Finally there is the `NgtscCompilerHost` to be used for any TypeScript compilation, which uses a given file-system. All tests that interact with the file-system should be tested against each of the mock file-systems. A series of helpers have been provided to support such tests: * `runInEachFileSystem()` - wrap your tests in this helper to run all the wrapped tests in each of the mock file-systems. * `addTestFilesToFileSystem()` - use this to add files and their contents to the mock file system for testing. * `loadTestFilesFromDisk()` - use this to load a mirror image of files on disk into the in-memory mock file-system. * `loadFakeCore()` - use this to load a fake version of `@angular/core` into the mock file-system. All ngcc and ngtsc source and tests now use this virtual file-system setup. PR Close #30921
2019-06-06 15:22:32 -04:00
const addConstantsSpy = testFormatter.addConstants as jasmine.Spy;
const addImportsSpy = testFormatter.addImports as jasmine.Spy;
renderer.renderProgram(
decorationAnalyses, switchMarkerAnalyses, privateDeclarationsAnalyses);
expect(addExportsSpy).toHaveBeenCalledBefore(addImportsSpy);
expect(addDefinitionsSpy).toHaveBeenCalledBefore(addImportsSpy);
fix(ngcc): render adjacent statements after static properties (#33630) See https://github.com/angular/angular/pull/33337#issuecomment-545487737 Fixes FW-1664 PR Close #33630
2019-11-06 12:03:56 -05:00
expect(addAdjacentStatementsSpy).toHaveBeenCalledBefore(addImportsSpy);
refactor(ivy): implement a virtual file-system layer in ngtsc + ngcc (#30921) To improve cross platform support, all file access (and path manipulation) is now done through a well known interface (`FileSystem`). For testing a number of `MockFileSystem` implementations are provided. These provide an in-memory file-system which emulates operating systems like OS/X, Unix and Windows. The current file system is always available via the static method, `FileSystem.getFileSystem()`. This is also used by a number of static methods on `AbsoluteFsPath` and `PathSegment`, to avoid having to pass `FileSystem` objects around all the time. The result of this is that one must be careful to ensure that the file-system has been initialized before using any of these static methods. To prevent this happening accidentally the current file system always starts out as an instance of `InvalidFileSystem`, which will throw an error if any of its methods are called. You can set the current file-system by calling `FileSystem.setFileSystem()`. During testing you can call the helper function `initMockFileSystem(os)` which takes a string name of the OS to emulate, and will also monkey-patch aspects of the TypeScript library to ensure that TS is also using the current file-system. Finally there is the `NgtscCompilerHost` to be used for any TypeScript compilation, which uses a given file-system. All tests that interact with the file-system should be tested against each of the mock file-systems. A series of helpers have been provided to support such tests: * `runInEachFileSystem()` - wrap your tests in this helper to run all the wrapped tests in each of the mock file-systems. * `addTestFilesToFileSystem()` - use this to add files and their contents to the mock file system for testing. * `loadTestFilesFromDisk()` - use this to load a mirror image of files on disk into the in-memory mock file-system. * `loadFakeCore()` - use this to load a fake version of `@angular/core` into the mock file-system. All ngcc and ngtsc source and tests now use this virtual file-system setup. PR Close #30921
2019-06-06 15:22:32 -04:00
expect(addConstantsSpy).toHaveBeenCalledBefore(addImportsSpy);
});
fix(ivy): ngcc should process undecorated base classes (#30821) Currently undecorated classes are intentionally not processed with ngcc. This is causing unexpected behavior because decorator handlers such as `base_def.ts` are specifically interested in class definitions without top-level decorators, so that the base definition can be generated if there are Angular-specific class members. In order to ensure that undecorated base-classes work as expected with Ivy, we need to run the decorator handlers for all top-level class declarations (not only for those with decorators). This is similar to when `ngtsc` runs decorator handlers when analyzing source-files. Resolves FW-1355. Fixes https://github.com/angular/components/issues/16178 PR Close #30821
2019-06-03 12:41:47 -04:00
});
refactor(ivy): implement a virtual file-system layer in ngtsc + ngcc (#30921) To improve cross platform support, all file access (and path manipulation) is now done through a well known interface (`FileSystem`). For testing a number of `MockFileSystem` implementations are provided. These provide an in-memory file-system which emulates operating systems like OS/X, Unix and Windows. The current file system is always available via the static method, `FileSystem.getFileSystem()`. This is also used by a number of static methods on `AbsoluteFsPath` and `PathSegment`, to avoid having to pass `FileSystem` objects around all the time. The result of this is that one must be careful to ensure that the file-system has been initialized before using any of these static methods. To prevent this happening accidentally the current file system always starts out as an instance of `InvalidFileSystem`, which will throw an error if any of its methods are called. You can set the current file-system by calling `FileSystem.setFileSystem()`. During testing you can call the helper function `initMockFileSystem(os)` which takes a string name of the OS to emulate, and will also monkey-patch aspects of the TypeScript library to ensure that TS is also using the current file-system. Finally there is the `NgtscCompilerHost` to be used for any TypeScript compilation, which uses a given file-system. All tests that interact with the file-system should be tested against each of the mock file-systems. A series of helpers have been provided to support such tests: * `runInEachFileSystem()` - wrap your tests in this helper to run all the wrapped tests in each of the mock file-systems. * `addTestFilesToFileSystem()` - use this to add files and their contents to the mock file system for testing. * `loadTestFilesFromDisk()` - use this to load a mirror image of files on disk into the in-memory mock file-system. * `loadFakeCore()` - use this to load a fake version of `@angular/core` into the mock file-system. All ngcc and ngtsc source and tests now use this virtual file-system setup. PR Close #30921
2019-06-06 15:22:32 -04:00
describe('source map merging', () => {
it('should merge any inline source map from the original file and write the output as an inline source map',
() => {
const {decorationAnalyses, renderer, switchMarkerAnalyses,
privateDeclarationsAnalyses} =
createTestRenderer(
'test-package', [{
...INPUT_PROGRAM,
contents: INPUT_PROGRAM.contents + '\n' + INPUT_PROGRAM_MAP.toComment()
}]);
const result = renderer.renderProgram(
decorationAnalyses, switchMarkerAnalyses, privateDeclarationsAnalyses);
fix(ivy): ngcc - do not analyze files outside the current package (#30591) Our module resolution prefers `.js` files over `.d.ts` files because occasionally libraries publish their typings in the same directory structure as the compiled JS files, i.e. adjacent to each other. The standard TS module resolution would pick up the typings file and add that to the `ts.Program` and so they would be ignored by our analyzers. But we need those JS files, if they are part of the current package. But this meant that we also bring in JS files from external imports from outside the package, which is not desired. This was happening for the `@fire/storage` enty-point that was importing the `firebase/storage` path. In this commit we solve this problem, for the case of imports coming from a completely different package, by saying that any file that is outside the package root directory must be an external import and so we do not analyze those files. This does not solve the potential problem of imports between secondary entry-points within a package but so far that does not appear to be a problem. PR Close #30591
2019-05-25 16:34:40 -04:00
expect(result[0].path).toEqual(_('/node_modules/test-package/src/file.js'));
refactor(ivy): implement a virtual file-system layer in ngtsc + ngcc (#30921) To improve cross platform support, all file access (and path manipulation) is now done through a well known interface (`FileSystem`). For testing a number of `MockFileSystem` implementations are provided. These provide an in-memory file-system which emulates operating systems like OS/X, Unix and Windows. The current file system is always available via the static method, `FileSystem.getFileSystem()`. This is also used by a number of static methods on `AbsoluteFsPath` and `PathSegment`, to avoid having to pass `FileSystem` objects around all the time. The result of this is that one must be careful to ensure that the file-system has been initialized before using any of these static methods. To prevent this happening accidentally the current file system always starts out as an instance of `InvalidFileSystem`, which will throw an error if any of its methods are called. You can set the current file-system by calling `FileSystem.setFileSystem()`. During testing you can call the helper function `initMockFileSystem(os)` which takes a string name of the OS to emulate, and will also monkey-patch aspects of the TypeScript library to ensure that TS is also using the current file-system. Finally there is the `NgtscCompilerHost` to be used for any TypeScript compilation, which uses a given file-system. All tests that interact with the file-system should be tested against each of the mock file-systems. A series of helpers have been provided to support such tests: * `runInEachFileSystem()` - wrap your tests in this helper to run all the wrapped tests in each of the mock file-systems. * `addTestFilesToFileSystem()` - use this to add files and their contents to the mock file system for testing. * `loadTestFilesFromDisk()` - use this to load a mirror image of files on disk into the in-memory mock file-system. * `loadFakeCore()` - use this to load a fake version of `@angular/core` into the mock file-system. All ngcc and ngtsc source and tests now use this virtual file-system setup. PR Close #30921
2019-06-06 15:22:32 -04:00
expect(result[0].contents)
.toEqual(RENDERED_CONTENTS + '\n' + MERGED_OUTPUT_PROGRAM_MAP.toComment());
expect(result[1]).toBeUndefined();
});
it('should merge any external source map from the original file and write the output to an external source map',
() => {
const sourceFiles: TestFile[] = [{
...INPUT_PROGRAM,
contents: INPUT_PROGRAM.contents + '\n//# sourceMappingURL=file.js.map'
}];
const mappingFiles: TestFile[] =
[{name: _(INPUT_PROGRAM.name + '.map'), contents: INPUT_PROGRAM_MAP.toJSON()}];
const {decorationAnalyses, renderer, switchMarkerAnalyses,
privateDeclarationsAnalyses} =
createTestRenderer('test-package', sourceFiles, undefined, mappingFiles);
const result = renderer.renderProgram(
decorationAnalyses, switchMarkerAnalyses, privateDeclarationsAnalyses);
fix(ivy): ngcc - do not analyze files outside the current package (#30591) Our module resolution prefers `.js` files over `.d.ts` files because occasionally libraries publish their typings in the same directory structure as the compiled JS files, i.e. adjacent to each other. The standard TS module resolution would pick up the typings file and add that to the `ts.Program` and so they would be ignored by our analyzers. But we need those JS files, if they are part of the current package. But this meant that we also bring in JS files from external imports from outside the package, which is not desired. This was happening for the `@fire/storage` enty-point that was importing the `firebase/storage` path. In this commit we solve this problem, for the case of imports coming from a completely different package, by saying that any file that is outside the package root directory must be an external import and so we do not analyze those files. This does not solve the potential problem of imports between secondary entry-points within a package but so far that does not appear to be a problem. PR Close #30591
2019-05-25 16:34:40 -04:00
expect(result[0].path).toEqual(_('/node_modules/test-package/src/file.js'));
refactor(ivy): implement a virtual file-system layer in ngtsc + ngcc (#30921) To improve cross platform support, all file access (and path manipulation) is now done through a well known interface (`FileSystem`). For testing a number of `MockFileSystem` implementations are provided. These provide an in-memory file-system which emulates operating systems like OS/X, Unix and Windows. The current file system is always available via the static method, `FileSystem.getFileSystem()`. This is also used by a number of static methods on `AbsoluteFsPath` and `PathSegment`, to avoid having to pass `FileSystem` objects around all the time. The result of this is that one must be careful to ensure that the file-system has been initialized before using any of these static methods. To prevent this happening accidentally the current file system always starts out as an instance of `InvalidFileSystem`, which will throw an error if any of its methods are called. You can set the current file-system by calling `FileSystem.setFileSystem()`. During testing you can call the helper function `initMockFileSystem(os)` which takes a string name of the OS to emulate, and will also monkey-patch aspects of the TypeScript library to ensure that TS is also using the current file-system. Finally there is the `NgtscCompilerHost` to be used for any TypeScript compilation, which uses a given file-system. All tests that interact with the file-system should be tested against each of the mock file-systems. A series of helpers have been provided to support such tests: * `runInEachFileSystem()` - wrap your tests in this helper to run all the wrapped tests in each of the mock file-systems. * `addTestFilesToFileSystem()` - use this to add files and their contents to the mock file system for testing. * `loadTestFilesFromDisk()` - use this to load a mirror image of files on disk into the in-memory mock file-system. * `loadFakeCore()` - use this to load a fake version of `@angular/core` into the mock file-system. All ngcc and ngtsc source and tests now use this virtual file-system setup. PR Close #30921
2019-06-06 15:22:32 -04:00
expect(result[0].contents)
.toEqual(RENDERED_CONTENTS + '\n' + generateMapFileComment('file.js.map'));
fix(ivy): ngcc - do not analyze files outside the current package (#30591) Our module resolution prefers `.js` files over `.d.ts` files because occasionally libraries publish their typings in the same directory structure as the compiled JS files, i.e. adjacent to each other. The standard TS module resolution would pick up the typings file and add that to the `ts.Program` and so they would be ignored by our analyzers. But we need those JS files, if they are part of the current package. But this meant that we also bring in JS files from external imports from outside the package, which is not desired. This was happening for the `@fire/storage` enty-point that was importing the `firebase/storage` path. In this commit we solve this problem, for the case of imports coming from a completely different package, by saying that any file that is outside the package root directory must be an external import and so we do not analyze those files. This does not solve the potential problem of imports between secondary entry-points within a package but so far that does not appear to be a problem. PR Close #30591
2019-05-25 16:34:40 -04:00
expect(result[1].path).toEqual(_('/node_modules/test-package/src/file.js.map'));
refactor(ivy): implement a virtual file-system layer in ngtsc + ngcc (#30921) To improve cross platform support, all file access (and path manipulation) is now done through a well known interface (`FileSystem`). For testing a number of `MockFileSystem` implementations are provided. These provide an in-memory file-system which emulates operating systems like OS/X, Unix and Windows. The current file system is always available via the static method, `FileSystem.getFileSystem()`. This is also used by a number of static methods on `AbsoluteFsPath` and `PathSegment`, to avoid having to pass `FileSystem` objects around all the time. The result of this is that one must be careful to ensure that the file-system has been initialized before using any of these static methods. To prevent this happening accidentally the current file system always starts out as an instance of `InvalidFileSystem`, which will throw an error if any of its methods are called. You can set the current file-system by calling `FileSystem.setFileSystem()`. During testing you can call the helper function `initMockFileSystem(os)` which takes a string name of the OS to emulate, and will also monkey-patch aspects of the TypeScript library to ensure that TS is also using the current file-system. Finally there is the `NgtscCompilerHost` to be used for any TypeScript compilation, which uses a given file-system. All tests that interact with the file-system should be tested against each of the mock file-systems. A series of helpers have been provided to support such tests: * `runInEachFileSystem()` - wrap your tests in this helper to run all the wrapped tests in each of the mock file-systems. * `addTestFilesToFileSystem()` - use this to add files and their contents to the mock file system for testing. * `loadTestFilesFromDisk()` - use this to load a mirror image of files on disk into the in-memory mock file-system. * `loadFakeCore()` - use this to load a fake version of `@angular/core` into the mock file-system. All ngcc and ngtsc source and tests now use this virtual file-system setup. PR Close #30921
2019-06-06 15:22:32 -04:00
expect(JSON.parse(result[1].contents)).toEqual(MERGED_OUTPUT_PROGRAM_MAP.toObject());
});
fix(ivy): prevent ngcc from referencing missing ɵsetClassMetadata (#27055) When ngtsc compiles @angular/core, it rewrites core imports to the r3_symbols.ts file that exposes all internal symbols under their external name. When creating the FESM bundle, the r3_symbols.ts file causes the external symbol names to be rewritten to their internal name. Under ngcc compilations of FESM bundles, the indirection of r3_symbols.ts is no longer in place such that the external names are retained in the bundle. Previously, the external name `ɵdefineNgModule` was explicitly declared internally to resolve this issue, but the recently added `setClassMetadata` was not declared as such, causing runtime errors. Instead of relying on the r3_symbols.ts file to perform the rewrite of the external modules to their internal variants, the translation is moved into the `ImportManager` during the compilation itself. This avoids the need for providing the external name manually. PR Close #27055
2018-11-11 13:16:04 -05:00
});
refactor(ivy): implement a virtual file-system layer in ngtsc + ngcc (#30921) To improve cross platform support, all file access (and path manipulation) is now done through a well known interface (`FileSystem`). For testing a number of `MockFileSystem` implementations are provided. These provide an in-memory file-system which emulates operating systems like OS/X, Unix and Windows. The current file system is always available via the static method, `FileSystem.getFileSystem()`. This is also used by a number of static methods on `AbsoluteFsPath` and `PathSegment`, to avoid having to pass `FileSystem` objects around all the time. The result of this is that one must be careful to ensure that the file-system has been initialized before using any of these static methods. To prevent this happening accidentally the current file system always starts out as an instance of `InvalidFileSystem`, which will throw an error if any of its methods are called. You can set the current file-system by calling `FileSystem.setFileSystem()`. During testing you can call the helper function `initMockFileSystem(os)` which takes a string name of the OS to emulate, and will also monkey-patch aspects of the TypeScript library to ensure that TS is also using the current file-system. Finally there is the `NgtscCompilerHost` to be used for any TypeScript compilation, which uses a given file-system. All tests that interact with the file-system should be tested against each of the mock file-systems. A series of helpers have been provided to support such tests: * `runInEachFileSystem()` - wrap your tests in this helper to run all the wrapped tests in each of the mock file-systems. * `addTestFilesToFileSystem()` - use this to add files and their contents to the mock file system for testing. * `loadTestFilesFromDisk()` - use this to load a mirror image of files on disk into the in-memory mock file-system. * `loadFakeCore()` - use this to load a fake version of `@angular/core` into the mock file-system. All ngcc and ngtsc source and tests now use this virtual file-system setup. PR Close #30921
2019-06-06 15:22:32 -04:00
describe('@angular/core support', () => {
it('should render relative imports in ESM bundles', () => {
const CORE_FILE: TestFile = {
fix(ivy): ngcc - do not analyze files outside the current package (#30591) Our module resolution prefers `.js` files over `.d.ts` files because occasionally libraries publish their typings in the same directory structure as the compiled JS files, i.e. adjacent to each other. The standard TS module resolution would pick up the typings file and add that to the `ts.Program` and so they would be ignored by our analyzers. But we need those JS files, if they are part of the current package. But this meant that we also bring in JS files from external imports from outside the package, which is not desired. This was happening for the `@fire/storage` enty-point that was importing the `firebase/storage` path. In this commit we solve this problem, for the case of imports coming from a completely different package, by saying that any file that is outside the package root directory must be an external import and so we do not analyze those files. This does not solve the potential problem of imports between secondary entry-points within a package but so far that does not appear to be a problem. PR Close #30591
2019-05-25 16:34:40 -04:00
name: _('/node_modules/test-package/src/core.js'),
refactor(ivy): implement a virtual file-system layer in ngtsc + ngcc (#30921) To improve cross platform support, all file access (and path manipulation) is now done through a well known interface (`FileSystem`). For testing a number of `MockFileSystem` implementations are provided. These provide an in-memory file-system which emulates operating systems like OS/X, Unix and Windows. The current file system is always available via the static method, `FileSystem.getFileSystem()`. This is also used by a number of static methods on `AbsoluteFsPath` and `PathSegment`, to avoid having to pass `FileSystem` objects around all the time. The result of this is that one must be careful to ensure that the file-system has been initialized before using any of these static methods. To prevent this happening accidentally the current file system always starts out as an instance of `InvalidFileSystem`, which will throw an error if any of its methods are called. You can set the current file-system by calling `FileSystem.setFileSystem()`. During testing you can call the helper function `initMockFileSystem(os)` which takes a string name of the OS to emulate, and will also monkey-patch aspects of the TypeScript library to ensure that TS is also using the current file-system. Finally there is the `NgtscCompilerHost` to be used for any TypeScript compilation, which uses a given file-system. All tests that interact with the file-system should be tested against each of the mock file-systems. A series of helpers have been provided to support such tests: * `runInEachFileSystem()` - wrap your tests in this helper to run all the wrapped tests in each of the mock file-systems. * `addTestFilesToFileSystem()` - use this to add files and their contents to the mock file system for testing. * `loadTestFilesFromDisk()` - use this to load a mirror image of files on disk into the in-memory mock file-system. * `loadFakeCore()` - use this to load a fake version of `@angular/core` into the mock file-system. All ngcc and ngtsc source and tests now use this virtual file-system setup. PR Close #30921
2019-06-06 15:22:32 -04:00
contents:
`import { NgModule } from './ng_module';\nexport class MyModule {}\nMyModule.decorators = [\n { type: NgModule, args: [] }\n];\n`
};
const R3_SYMBOLS_FILE: TestFile = {
// r3_symbols in the file name indicates that this is the path to rewrite core imports
// to
fix(ivy): ngcc - do not analyze files outside the current package (#30591) Our module resolution prefers `.js` files over `.d.ts` files because occasionally libraries publish their typings in the same directory structure as the compiled JS files, i.e. adjacent to each other. The standard TS module resolution would pick up the typings file and add that to the `ts.Program` and so they would be ignored by our analyzers. But we need those JS files, if they are part of the current package. But this meant that we also bring in JS files from external imports from outside the package, which is not desired. This was happening for the `@fire/storage` enty-point that was importing the `firebase/storage` path. In this commit we solve this problem, for the case of imports coming from a completely different package, by saying that any file that is outside the package root directory must be an external import and so we do not analyze those files. This does not solve the potential problem of imports between secondary entry-points within a package but so far that does not appear to be a problem. PR Close #30591
2019-05-25 16:34:40 -04:00
name: _('/node_modules/test-package/src/r3_symbols.js'),
refactor(ivy): implement a virtual file-system layer in ngtsc + ngcc (#30921) To improve cross platform support, all file access (and path manipulation) is now done through a well known interface (`FileSystem`). For testing a number of `MockFileSystem` implementations are provided. These provide an in-memory file-system which emulates operating systems like OS/X, Unix and Windows. The current file system is always available via the static method, `FileSystem.getFileSystem()`. This is also used by a number of static methods on `AbsoluteFsPath` and `PathSegment`, to avoid having to pass `FileSystem` objects around all the time. The result of this is that one must be careful to ensure that the file-system has been initialized before using any of these static methods. To prevent this happening accidentally the current file system always starts out as an instance of `InvalidFileSystem`, which will throw an error if any of its methods are called. You can set the current file-system by calling `FileSystem.setFileSystem()`. During testing you can call the helper function `initMockFileSystem(os)` which takes a string name of the OS to emulate, and will also monkey-patch aspects of the TypeScript library to ensure that TS is also using the current file-system. Finally there is the `NgtscCompilerHost` to be used for any TypeScript compilation, which uses a given file-system. All tests that interact with the file-system should be tested against each of the mock file-systems. A series of helpers have been provided to support such tests: * `runInEachFileSystem()` - wrap your tests in this helper to run all the wrapped tests in each of the mock file-systems. * `addTestFilesToFileSystem()` - use this to add files and their contents to the mock file system for testing. * `loadTestFilesFromDisk()` - use this to load a mirror image of files on disk into the in-memory mock file-system. * `loadFakeCore()` - use this to load a fake version of `@angular/core` into the mock file-system. All ngcc and ngtsc source and tests now use this virtual file-system setup. PR Close #30921
2019-06-06 15:22:32 -04:00
contents: `export const NgModule = () => null;`
};
// The package name of `@angular/core` indicates that we are compiling the core library.
const {decorationAnalyses, renderer, switchMarkerAnalyses, privateDeclarationsAnalyses,
testFormatter} = createTestRenderer('@angular/core', [CORE_FILE, R3_SYMBOLS_FILE]);
renderer.renderProgram(
decorationAnalyses, switchMarkerAnalyses, privateDeclarationsAnalyses);
fix(ngcc): render adjacent statements after static properties (#33630) See https://github.com/angular/angular/pull/33337#issuecomment-545487737 Fixes FW-1664 PR Close #33630
2019-11-06 12:03:56 -05:00
const addAdjacentStatementsSpy = testFormatter.addAdjacentStatements as jasmine.Spy;
expect(addAdjacentStatementsSpy.calls.first().args[2])
fix(ivy): move setClassMetadata calls into a pure iife (#33337) This commit transforms the setClassMetadata calls generated by ngtsc from: ```typescript /*@__PURE__*/ setClassMetadata(...); ``` to: ```typescript /*@__PURE__*/ (function() { setClassMetadata(...); })(); ``` Without the IIFE, terser won't remove these function calls because the function calls have arguments that themselves are function calls or other impure expressions. In order to make the whole block be DCE-ed by terser, we wrap it into IIFE and mark the IIFE as pure. It should be noted that this change doesn't have any impact on CLI* with build-optimizer, which removes the whole setClassMetadata block within the webpack loader, so terser or webpack itself don't get to see it at all. This is done to prevent cross-chunk retention issues caused by webpack's internal module registry. * actually we do expect a short-term size regression while https://github.com/angular/angular-cli/pull/16228 is merged and released in the next rc of the CLI. But long term this change does nothing to CLI + build-optimizer configuration and is done primarly to correct the seemingly correct but non-function PURE annotation that builds not using build-optimizer could rely on. PR Close #33337
2019-07-31 18:20:56 -04:00
.toContain(`/*@__PURE__*/ (function () { ɵngcc0.setClassMetadata(`);
refactor(ivy): implement a virtual file-system layer in ngtsc + ngcc (#30921) To improve cross platform support, all file access (and path manipulation) is now done through a well known interface (`FileSystem`). For testing a number of `MockFileSystem` implementations are provided. These provide an in-memory file-system which emulates operating systems like OS/X, Unix and Windows. The current file system is always available via the static method, `FileSystem.getFileSystem()`. This is also used by a number of static methods on `AbsoluteFsPath` and `PathSegment`, to avoid having to pass `FileSystem` objects around all the time. The result of this is that one must be careful to ensure that the file-system has been initialized before using any of these static methods. To prevent this happening accidentally the current file system always starts out as an instance of `InvalidFileSystem`, which will throw an error if any of its methods are called. You can set the current file-system by calling `FileSystem.setFileSystem()`. During testing you can call the helper function `initMockFileSystem(os)` which takes a string name of the OS to emulate, and will also monkey-patch aspects of the TypeScript library to ensure that TS is also using the current file-system. Finally there is the `NgtscCompilerHost` to be used for any TypeScript compilation, which uses a given file-system. All tests that interact with the file-system should be tested against each of the mock file-systems. A series of helpers have been provided to support such tests: * `runInEachFileSystem()` - wrap your tests in this helper to run all the wrapped tests in each of the mock file-systems. * `addTestFilesToFileSystem()` - use this to add files and their contents to the mock file system for testing. * `loadTestFilesFromDisk()` - use this to load a mirror image of files on disk into the in-memory mock file-system. * `loadFakeCore()` - use this to load a fake version of `@angular/core` into the mock file-system. All ngcc and ngtsc source and tests now use this virtual file-system setup. PR Close #30921
2019-06-06 15:22:32 -04:00
const addImportsSpy = testFormatter.addImports as jasmine.Spy;
expect(addImportsSpy.calls.first().args[1]).toEqual([
{specifier: './r3_symbols', qualifier: 'ɵngcc0'}
]);
});
it('should render no imports in FESM bundles', () => {
const CORE_FILE: TestFile = {
fix(ivy): ngcc - do not analyze files outside the current package (#30591) Our module resolution prefers `.js` files over `.d.ts` files because occasionally libraries publish their typings in the same directory structure as the compiled JS files, i.e. adjacent to each other. The standard TS module resolution would pick up the typings file and add that to the `ts.Program` and so they would be ignored by our analyzers. But we need those JS files, if they are part of the current package. But this meant that we also bring in JS files from external imports from outside the package, which is not desired. This was happening for the `@fire/storage` enty-point that was importing the `firebase/storage` path. In this commit we solve this problem, for the case of imports coming from a completely different package, by saying that any file that is outside the package root directory must be an external import and so we do not analyze those files. This does not solve the potential problem of imports between secondary entry-points within a package but so far that does not appear to be a problem. PR Close #30591
2019-05-25 16:34:40 -04:00
name: _('/node_modules/test-package/src/core.js'),
refactor(ivy): implement a virtual file-system layer in ngtsc + ngcc (#30921) To improve cross platform support, all file access (and path manipulation) is now done through a well known interface (`FileSystem`). For testing a number of `MockFileSystem` implementations are provided. These provide an in-memory file-system which emulates operating systems like OS/X, Unix and Windows. The current file system is always available via the static method, `FileSystem.getFileSystem()`. This is also used by a number of static methods on `AbsoluteFsPath` and `PathSegment`, to avoid having to pass `FileSystem` objects around all the time. The result of this is that one must be careful to ensure that the file-system has been initialized before using any of these static methods. To prevent this happening accidentally the current file system always starts out as an instance of `InvalidFileSystem`, which will throw an error if any of its methods are called. You can set the current file-system by calling `FileSystem.setFileSystem()`. During testing you can call the helper function `initMockFileSystem(os)` which takes a string name of the OS to emulate, and will also monkey-patch aspects of the TypeScript library to ensure that TS is also using the current file-system. Finally there is the `NgtscCompilerHost` to be used for any TypeScript compilation, which uses a given file-system. All tests that interact with the file-system should be tested against each of the mock file-systems. A series of helpers have been provided to support such tests: * `runInEachFileSystem()` - wrap your tests in this helper to run all the wrapped tests in each of the mock file-systems. * `addTestFilesToFileSystem()` - use this to add files and their contents to the mock file system for testing. * `loadTestFilesFromDisk()` - use this to load a mirror image of files on disk into the in-memory mock file-system. * `loadFakeCore()` - use this to load a fake version of `@angular/core` into the mock file-system. All ngcc and ngtsc source and tests now use this virtual file-system setup. PR Close #30921
2019-06-06 15:22:32 -04:00
contents: `export const NgModule = () => null;
fix(ivy): prevent ngcc from referencing missing ɵsetClassMetadata (#27055) When ngtsc compiles @angular/core, it rewrites core imports to the r3_symbols.ts file that exposes all internal symbols under their external name. When creating the FESM bundle, the r3_symbols.ts file causes the external symbol names to be rewritten to their internal name. Under ngcc compilations of FESM bundles, the indirection of r3_symbols.ts is no longer in place such that the external names are retained in the bundle. Previously, the external name `ɵdefineNgModule` was explicitly declared internally to resolve this issue, but the recently added `setClassMetadata` was not declared as such, causing runtime errors. Instead of relying on the r3_symbols.ts file to perform the rewrite of the external modules to their internal variants, the translation is moved into the `ImportManager` during the compilation itself. This avoids the need for providing the external name manually. PR Close #27055
2018-11-11 13:16:04 -05:00
export class MyModule {}\nMyModule.decorators = [\n { type: NgModule, args: [] }\n];\n`
refactor(ivy): implement a virtual file-system layer in ngtsc + ngcc (#30921) To improve cross platform support, all file access (and path manipulation) is now done through a well known interface (`FileSystem`). For testing a number of `MockFileSystem` implementations are provided. These provide an in-memory file-system which emulates operating systems like OS/X, Unix and Windows. The current file system is always available via the static method, `FileSystem.getFileSystem()`. This is also used by a number of static methods on `AbsoluteFsPath` and `PathSegment`, to avoid having to pass `FileSystem` objects around all the time. The result of this is that one must be careful to ensure that the file-system has been initialized before using any of these static methods. To prevent this happening accidentally the current file system always starts out as an instance of `InvalidFileSystem`, which will throw an error if any of its methods are called. You can set the current file-system by calling `FileSystem.setFileSystem()`. During testing you can call the helper function `initMockFileSystem(os)` which takes a string name of the OS to emulate, and will also monkey-patch aspects of the TypeScript library to ensure that TS is also using the current file-system. Finally there is the `NgtscCompilerHost` to be used for any TypeScript compilation, which uses a given file-system. All tests that interact with the file-system should be tested against each of the mock file-systems. A series of helpers have been provided to support such tests: * `runInEachFileSystem()` - wrap your tests in this helper to run all the wrapped tests in each of the mock file-systems. * `addTestFilesToFileSystem()` - use this to add files and their contents to the mock file system for testing. * `loadTestFilesFromDisk()` - use this to load a mirror image of files on disk into the in-memory mock file-system. * `loadFakeCore()` - use this to load a fake version of `@angular/core` into the mock file-system. All ngcc and ngtsc source and tests now use this virtual file-system setup. PR Close #30921
2019-06-06 15:22:32 -04:00
};
const {decorationAnalyses, renderer, switchMarkerAnalyses, privateDeclarationsAnalyses,
testFormatter} = createTestRenderer('@angular/core', [CORE_FILE]);
renderer.renderProgram(
decorationAnalyses, switchMarkerAnalyses, privateDeclarationsAnalyses);
fix(ngcc): render adjacent statements after static properties (#33630) See https://github.com/angular/angular/pull/33337#issuecomment-545487737 Fixes FW-1664 PR Close #33630
2019-11-06 12:03:56 -05:00
const addAdjacentStatementsSpy = testFormatter.addAdjacentStatements as jasmine.Spy;
expect(addAdjacentStatementsSpy.calls.first().args[2])
fix(ivy): move setClassMetadata calls into a pure iife (#33337) This commit transforms the setClassMetadata calls generated by ngtsc from: ```typescript /*@__PURE__*/ setClassMetadata(...); ``` to: ```typescript /*@__PURE__*/ (function() { setClassMetadata(...); })(); ``` Without the IIFE, terser won't remove these function calls because the function calls have arguments that themselves are function calls or other impure expressions. In order to make the whole block be DCE-ed by terser, we wrap it into IIFE and mark the IIFE as pure. It should be noted that this change doesn't have any impact on CLI* with build-optimizer, which removes the whole setClassMetadata block within the webpack loader, so terser or webpack itself don't get to see it at all. This is done to prevent cross-chunk retention issues caused by webpack's internal module registry. * actually we do expect a short-term size regression while https://github.com/angular/angular-cli/pull/16228 is merged and released in the next rc of the CLI. But long term this change does nothing to CLI + build-optimizer configuration and is done primarly to correct the seemingly correct but non-function PURE annotation that builds not using build-optimizer could rely on. PR Close #33337
2019-07-31 18:20:56 -04:00
.toContain(`/*@__PURE__*/ (function () { setClassMetadata(`);
refactor(ivy): implement a virtual file-system layer in ngtsc + ngcc (#30921) To improve cross platform support, all file access (and path manipulation) is now done through a well known interface (`FileSystem`). For testing a number of `MockFileSystem` implementations are provided. These provide an in-memory file-system which emulates operating systems like OS/X, Unix and Windows. The current file system is always available via the static method, `FileSystem.getFileSystem()`. This is also used by a number of static methods on `AbsoluteFsPath` and `PathSegment`, to avoid having to pass `FileSystem` objects around all the time. The result of this is that one must be careful to ensure that the file-system has been initialized before using any of these static methods. To prevent this happening accidentally the current file system always starts out as an instance of `InvalidFileSystem`, which will throw an error if any of its methods are called. You can set the current file-system by calling `FileSystem.setFileSystem()`. During testing you can call the helper function `initMockFileSystem(os)` which takes a string name of the OS to emulate, and will also monkey-patch aspects of the TypeScript library to ensure that TS is also using the current file-system. Finally there is the `NgtscCompilerHost` to be used for any TypeScript compilation, which uses a given file-system. All tests that interact with the file-system should be tested against each of the mock file-systems. A series of helpers have been provided to support such tests: * `runInEachFileSystem()` - wrap your tests in this helper to run all the wrapped tests in each of the mock file-systems. * `addTestFilesToFileSystem()` - use this to add files and their contents to the mock file system for testing. * `loadTestFilesFromDisk()` - use this to load a mirror image of files on disk into the in-memory mock file-system. * `loadFakeCore()` - use this to load a fake version of `@angular/core` into the mock file-system. All ngcc and ngtsc source and tests now use this virtual file-system setup. PR Close #30921
2019-06-06 15:22:32 -04:00
const addImportsSpy = testFormatter.addImports as jasmine.Spy;
expect(addImportsSpy.calls.first().args[1]).toEqual([]);
});
fix(ivy): prevent ngcc from referencing missing ɵsetClassMetadata (#27055) When ngtsc compiles @angular/core, it rewrites core imports to the r3_symbols.ts file that exposes all internal symbols under their external name. When creating the FESM bundle, the r3_symbols.ts file causes the external symbol names to be rewritten to their internal name. Under ngcc compilations of FESM bundles, the indirection of r3_symbols.ts is no longer in place such that the external names are retained in the bundle. Previously, the external name `ɵdefineNgModule` was explicitly declared internally to resolve this issue, but the recently added `setClassMetadata` was not declared as such, causing runtime errors. Instead of relying on the r3_symbols.ts file to perform the rewrite of the external modules to their internal variants, the translation is moved into the `ImportManager` during the compilation itself. This avoids the need for providing the external name manually. PR Close #27055
2018-11-11 13:16:04 -05:00
});
refactor(ivy): ngcc - encapsulate variables into "bundles" (#26906) There are a number of variables that need to be passed around the program, in particular to the renderers, which benefit from being stored in well defined objects. The new `EntryPointBundle` structure is a specific format of an entry-point and contains the compiled `BundleProgram` objects for the source and typings, if appropriate. This change helps with future refactoring, where we may need to add new properties to this object. It allows us to maintain more stable APIs between the constituent parts of ngcc, rather than passing lots of primitive values around throughout the program. PR Close #26906
2018-11-25 16:40:25 -05:00
});
feat(ivy): implement esm2015 and esm5 ngcc file renderers (#24897) PR Close #24897
2018-07-16 05:23:37 -04:00
});
refactor(ivy): make `ReflectionHost` a parameter of `Renderer` (#25406) PR Close #25406
2018-07-27 15:36:54 -04:00
});