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angular-cn/packages/compiler-cli/src/ngtsc/scope/test/dependency_spec.ts

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refactor(ivy): extract selector scope logic to a new ngtsc package (#28852) This commit splits apart selector_scope.ts in ngtsc and extracts the logic into two separate classes, the LocalModuleScopeRegistry and the DtsModuleScopeResolver. The logic is cleaned up significantly and new tests are added to verify behavior. LocalModuleScopeRegistry implements the NgModule semantics for compilation scopes, and handles NgModules declared in the current compilation unit. DtsModuleScopeResolver implements simpler logic for export scopes and handles NgModules declared in .d.ts files. This is done in preparation for the addition of re-export logic to solve StrictDeps issues. PR Close #28852
2019-02-19 12:05:03 -08:00
/**
* @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
*/
feat(ivy): produce and consume ES2015 re-exports for NgModule re-exports (#28852) In certain configurations (such as the g3 repository) which have lots of small compilation units as well as strict dependency checking on generated code, ngtsc's default strategy of directly importing directives/pipes into components will not work. To handle these cases, an additional mode is introduced, and is enabled when using the FileToModuleHost provided by such compilation environments. In this mode, when ngtsc encounters an NgModule which re-exports another from a different file, it will re-export all the directives it contains at the ES2015 level. The exports will have a predictable name based on the FileToModuleHost. For example, if the host says that a directive Foo is from the 'root/external/foo' module, ngtsc will add: ``` export {Foo as ɵng$root$external$foo$$Foo} from 'root/external/foo'; ``` Consumers of the re-exported directive will then import it via this path instead of directly from root/external/foo, preserving strict dependency semantics. PR Close #28852
2019-02-19 17:36:26 -08:00
import {ExternalExpr, ExternalReference} from '@angular/compiler';
refactor(ivy): extract selector scope logic to a new ngtsc package (#28852) This commit splits apart selector_scope.ts in ngtsc and extracts the logic into two separate classes, the LocalModuleScopeRegistry and the DtsModuleScopeResolver. The logic is cleaned up significantly and new tests are added to verify behavior. LocalModuleScopeRegistry implements the NgModule semantics for compilation scopes, and handles NgModules declared in the current compilation unit. DtsModuleScopeResolver implements simpler logic for export scopes and handles NgModules declared in .d.ts files. This is done in preparation for the addition of re-export logic to solve StrictDeps issues. PR Close #28852
2019-02-19 12:05:03 -08:00
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 20:22:32 +01:00
import {absoluteFrom} from '../../file_system';
import {runInEachFileSystem} from '../../file_system/testing';
feat(ivy): produce and consume ES2015 re-exports for NgModule re-exports (#28852) In certain configurations (such as the g3 repository) which have lots of small compilation units as well as strict dependency checking on generated code, ngtsc's default strategy of directly importing directives/pipes into components will not work. To handle these cases, an additional mode is introduced, and is enabled when using the FileToModuleHost provided by such compilation environments. In this mode, when ngtsc encounters an NgModule which re-exports another from a different file, it will re-export all the directives it contains at the ES2015 level. The exports will have a predictable name based on the FileToModuleHost. For example, if the host says that a directive Foo is from the 'root/external/foo' module, ngtsc will add: ``` export {Foo as ɵng$root$external$foo$$Foo} from 'root/external/foo'; ``` Consumers of the re-exported directive will then import it via this path instead of directly from root/external/foo, preserving strict dependency semantics. PR Close #28852
2019-02-19 17:36:26 -08:00
import {AliasGenerator, FileToModuleHost, Reference} from '../../imports';
refactor(ivy): move metadata registration to its own package (#29698) Previously, metadata registration (the recording of collected metadata during analysis of directives, pipes, and NgModules) was only used to produce the `LocalModuleScope`, and thus was handled by the `LocalModuleScopeRegistry`. However, the template type-checker also needs information about registered directives, outside of the NgModule scope determinations. Rather than reuse the scope registry for an unintended purpose, this commit introduces new abstractions for metadata registration and lookups in a separate 'metadata' package, which the scope registry implements. This paves the way for a future commit to make use of this metadata for the template type-checking system. Testing strategy: this commit is a refactoring which introduces no new functionality, so existing tests are sufficient. PR Close #29698
2019-03-26 14:02:16 -07:00
import {DtsMetadataReader} from '../../metadata';
refactor(ivy): correctly type class declarations in `ngtsc`/`ngcc` (#29209) Previously, several `ngtsc` and `ngcc` APIs dealing with class declaration nodes used inconsistent types. For example, some methods of the `DecoratorHandler` interface expected a `ts.Declaration` argument, but actual `DecoratorHandler` implementations specified a stricter `ts.ClassDeclaration` type. As a result, the stricter methods would operate under the incorrect assumption that their arguments were of type `ts.ClassDeclaration`, while the actual arguments might be of different types (e.g. `ngcc` would call them with `ts.FunctionDeclaration` or `ts.VariableDeclaration` arguments, when compiling ES5 code). Additionally, since we need those class declarations to be referenced in other parts of the program, `ngtsc`/`ngcc` had to either repeatedly check for `ts.isIdentifier(node.name)` or assume there was a `name` identifier and use `node.name!`. While this assumption happens to be true in the current implementation, working around type-checking is error-prone (e.g. the assumption might stop being true in the future). This commit fixes this by introducing a new type to be used for such class declarations (`ts.Declaration & {name: ts.Identifier}`) and using it consistently throughput the code. PR Close #29209
2019-03-20 12:10:57 +02:00
import {ClassDeclaration, TypeScriptReflectionHost} from '../../reflection';
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 20:22:32 +01:00
import {makeProgram} from '../../testing';
refactor(ivy): extract selector scope logic to a new ngtsc package (#28852) This commit splits apart selector_scope.ts in ngtsc and extracts the logic into two separate classes, the LocalModuleScopeRegistry and the DtsModuleScopeResolver. The logic is cleaned up significantly and new tests are added to verify behavior. LocalModuleScopeRegistry implements the NgModule semantics for compilation scopes, and handles NgModules declared in the current compilation unit. DtsModuleScopeResolver implements simpler logic for export scopes and handles NgModules declared in .d.ts files. This is done in preparation for the addition of re-export logic to solve StrictDeps issues. PR Close #28852
2019-02-19 12:05:03 -08:00
import {ExportScope} from '../src/api';
import {MetadataDtsModuleScopeResolver} from '../src/dependency';
const MODULE_FROM_NODE_MODULES_PATH = /.*node_modules\/(\w+)\/index\.d\.ts$/;
feat(ivy): produce and consume ES2015 re-exports for NgModule re-exports (#28852) In certain configurations (such as the g3 repository) which have lots of small compilation units as well as strict dependency checking on generated code, ngtsc's default strategy of directly importing directives/pipes into components will not work. To handle these cases, an additional mode is introduced, and is enabled when using the FileToModuleHost provided by such compilation environments. In this mode, when ngtsc encounters an NgModule which re-exports another from a different file, it will re-export all the directives it contains at the ES2015 level. The exports will have a predictable name based on the FileToModuleHost. For example, if the host says that a directive Foo is from the 'root/external/foo' module, ngtsc will add: ``` export {Foo as ɵng$root$external$foo$$Foo} from 'root/external/foo'; ``` Consumers of the re-exported directive will then import it via this path instead of directly from root/external/foo, preserving strict dependency semantics. PR Close #28852
2019-02-19 17:36:26 -08:00
const testHost: FileToModuleHost = {
fileNameToModuleName: function(imported: string): string {
const res = MODULE_FROM_NODE_MODULES_PATH.exec(imported) !;
return 'root/' + res[1];
}
};
refactor(ivy): extract selector scope logic to a new ngtsc package (#28852) This commit splits apart selector_scope.ts in ngtsc and extracts the logic into two separate classes, the LocalModuleScopeRegistry and the DtsModuleScopeResolver. The logic is cleaned up significantly and new tests are added to verify behavior. LocalModuleScopeRegistry implements the NgModule semantics for compilation scopes, and handles NgModules declared in the current compilation unit. DtsModuleScopeResolver implements simpler logic for export scopes and handles NgModules declared in .d.ts files. This is done in preparation for the addition of re-export logic to solve StrictDeps issues. PR Close #28852
2019-02-19 12:05:03 -08:00
/**
* Simple metadata types are added to the top of each testing file, for convenience.
*/
const PROLOG = `
export declare type ModuleMeta<A, B, C, D> = never;
export declare type ComponentMeta<A, B, C, D, E, F> = never;
export declare type DirectiveMeta<A, B, C, D, E, F> = never;
export declare type PipeMeta<A, B> = never;
`;
/**
* Construct the testing environment with a given set of absolute modules and their contents.
*
* This returns both the `MetadataDtsModuleScopeResolver` and a `refs` object which can be
* destructured to retrieve references to specific declared classes.
*/
feat(ivy): produce and consume ES2015 re-exports for NgModule re-exports (#28852) In certain configurations (such as the g3 repository) which have lots of small compilation units as well as strict dependency checking on generated code, ngtsc's default strategy of directly importing directives/pipes into components will not work. To handle these cases, an additional mode is introduced, and is enabled when using the FileToModuleHost provided by such compilation environments. In this mode, when ngtsc encounters an NgModule which re-exports another from a different file, it will re-export all the directives it contains at the ES2015 level. The exports will have a predictable name based on the FileToModuleHost. For example, if the host says that a directive Foo is from the 'root/external/foo' module, ngtsc will add: ``` export {Foo as ɵng$root$external$foo$$Foo} from 'root/external/foo'; ``` Consumers of the re-exported directive will then import it via this path instead of directly from root/external/foo, preserving strict dependency semantics. PR Close #28852
2019-02-19 17:36:26 -08:00
function makeTestEnv(
modules: {[module: string]: string}, aliasGenerator: AliasGenerator | null = null): {
refactor(ivy): correctly type class declarations in `ngtsc`/`ngcc` (#29209) Previously, several `ngtsc` and `ngcc` APIs dealing with class declaration nodes used inconsistent types. For example, some methods of the `DecoratorHandler` interface expected a `ts.Declaration` argument, but actual `DecoratorHandler` implementations specified a stricter `ts.ClassDeclaration` type. As a result, the stricter methods would operate under the incorrect assumption that their arguments were of type `ts.ClassDeclaration`, while the actual arguments might be of different types (e.g. `ngcc` would call them with `ts.FunctionDeclaration` or `ts.VariableDeclaration` arguments, when compiling ES5 code). Additionally, since we need those class declarations to be referenced in other parts of the program, `ngtsc`/`ngcc` had to either repeatedly check for `ts.isIdentifier(node.name)` or assume there was a `name` identifier and use `node.name!`. While this assumption happens to be true in the current implementation, working around type-checking is error-prone (e.g. the assumption might stop being true in the future). This commit fixes this by introducing a new type to be used for such class declarations (`ts.Declaration & {name: ts.Identifier}`) and using it consistently throughput the code. PR Close #29209
2019-03-20 12:10:57 +02:00
refs: {[name: string]: Reference<ClassDeclaration>},
refactor(ivy): extract selector scope logic to a new ngtsc package (#28852) This commit splits apart selector_scope.ts in ngtsc and extracts the logic into two separate classes, the LocalModuleScopeRegistry and the DtsModuleScopeResolver. The logic is cleaned up significantly and new tests are added to verify behavior. LocalModuleScopeRegistry implements the NgModule semantics for compilation scopes, and handles NgModules declared in the current compilation unit. DtsModuleScopeResolver implements simpler logic for export scopes and handles NgModules declared in .d.ts files. This is done in preparation for the addition of re-export logic to solve StrictDeps issues. PR Close #28852
2019-02-19 12:05:03 -08:00
resolver: MetadataDtsModuleScopeResolver,
} {
// Map the modules object to an array of files for `makeProgram`.
const files = Object.keys(modules).map(moduleName => {
return {
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 20:22:32 +01:00
name: absoluteFrom(`/node_modules/${moduleName}/index.d.ts`),
refactor(ivy): extract selector scope logic to a new ngtsc package (#28852) This commit splits apart selector_scope.ts in ngtsc and extracts the logic into two separate classes, the LocalModuleScopeRegistry and the DtsModuleScopeResolver. The logic is cleaned up significantly and new tests are added to verify behavior. LocalModuleScopeRegistry implements the NgModule semantics for compilation scopes, and handles NgModules declared in the current compilation unit. DtsModuleScopeResolver implements simpler logic for export scopes and handles NgModules declared in .d.ts files. This is done in preparation for the addition of re-export logic to solve StrictDeps issues. PR Close #28852
2019-02-19 12:05:03 -08:00
contents: PROLOG + (modules as any)[moduleName],
};
});
const {program} = makeProgram(files);
const checker = program.getTypeChecker();
refactor(ivy): move metadata registration to its own package (#29698) Previously, metadata registration (the recording of collected metadata during analysis of directives, pipes, and NgModules) was only used to produce the `LocalModuleScope`, and thus was handled by the `LocalModuleScopeRegistry`. However, the template type-checker also needs information about registered directives, outside of the NgModule scope determinations. Rather than reuse the scope registry for an unintended purpose, this commit introduces new abstractions for metadata registration and lookups in a separate 'metadata' package, which the scope registry implements. This paves the way for a future commit to make use of this metadata for the template type-checking system. Testing strategy: this commit is a refactoring which introduces no new functionality, so existing tests are sufficient. PR Close #29698
2019-03-26 14:02:16 -07:00
const reflector = new TypeScriptReflectionHost(checker);
const resolver =
new MetadataDtsModuleScopeResolver(new DtsMetadataReader(checker, reflector), aliasGenerator);
refactor(ivy): extract selector scope logic to a new ngtsc package (#28852) This commit splits apart selector_scope.ts in ngtsc and extracts the logic into two separate classes, the LocalModuleScopeRegistry and the DtsModuleScopeResolver. The logic is cleaned up significantly and new tests are added to verify behavior. LocalModuleScopeRegistry implements the NgModule semantics for compilation scopes, and handles NgModules declared in the current compilation unit. DtsModuleScopeResolver implements simpler logic for export scopes and handles NgModules declared in .d.ts files. This is done in preparation for the addition of re-export logic to solve StrictDeps issues. PR Close #28852
2019-02-19 12:05:03 -08:00
// Resolver for the refs object.
const get = (target: {}, name: string): Reference<ts.ClassDeclaration> => {
for (const sf of program.getSourceFiles()) {
const symbol = checker.getSymbolAtLocation(sf) !;
const exportedSymbol = symbol.exports !.get(name as ts.__String);
if (exportedSymbol !== undefined) {
const decl = exportedSymbol.valueDeclaration as ts.ClassDeclaration;
const specifier = MODULE_FROM_NODE_MODULES_PATH.exec(sf.fileName) ![1];
return new Reference(decl, {specifier, resolutionContext: sf.fileName});
}
}
throw new Error('Class not found: ' + name);
};
return {
resolver,
refs: new Proxy({}, {get}),
};
}
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 20:22:32 +01:00
runInEachFileSystem(() => {
describe('MetadataDtsModuleScopeResolver', () => {
it('should produce an accurate scope for a basic NgModule', () => {
const {resolver, refs} = makeTestEnv({
'test': `
refactor(ivy): extract selector scope logic to a new ngtsc package (#28852) This commit splits apart selector_scope.ts in ngtsc and extracts the logic into two separate classes, the LocalModuleScopeRegistry and the DtsModuleScopeResolver. The logic is cleaned up significantly and new tests are added to verify behavior. LocalModuleScopeRegistry implements the NgModule semantics for compilation scopes, and handles NgModules declared in the current compilation unit. DtsModuleScopeResolver implements simpler logic for export scopes and handles NgModules declared in .d.ts files. This is done in preparation for the addition of re-export logic to solve StrictDeps issues. PR Close #28852
2019-02-19 12:05:03 -08:00
export declare class Dir {
static ngDirectiveDef: DirectiveMeta<Dir, '[dir]', ['exportAs'], {'input': 'input2'},
{'output': 'output2'}, ['query']>;
}
export declare class Module {
static ngModuleDef: ModuleMeta<Module, [typeof Dir], never, [typeof Dir]>;
}
`
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 20:22:32 +01:00
});
const {Dir, Module} = refs;
const scope = resolver.resolve(Module) !;
expect(scopeToRefs(scope)).toEqual([Dir]);
refactor(ivy): extract selector scope logic to a new ngtsc package (#28852) This commit splits apart selector_scope.ts in ngtsc and extracts the logic into two separate classes, the LocalModuleScopeRegistry and the DtsModuleScopeResolver. The logic is cleaned up significantly and new tests are added to verify behavior. LocalModuleScopeRegistry implements the NgModule semantics for compilation scopes, and handles NgModules declared in the current compilation unit. DtsModuleScopeResolver implements simpler logic for export scopes and handles NgModules declared in .d.ts files. This is done in preparation for the addition of re-export logic to solve StrictDeps issues. PR Close #28852
2019-02-19 12:05:03 -08:00
});
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 20:22:32 +01:00
it('should produce an accurate scope when a module is exported', () => {
const {resolver, refs} = makeTestEnv({
'test': `
refactor(ivy): extract selector scope logic to a new ngtsc package (#28852) This commit splits apart selector_scope.ts in ngtsc and extracts the logic into two separate classes, the LocalModuleScopeRegistry and the DtsModuleScopeResolver. The logic is cleaned up significantly and new tests are added to verify behavior. LocalModuleScopeRegistry implements the NgModule semantics for compilation scopes, and handles NgModules declared in the current compilation unit. DtsModuleScopeResolver implements simpler logic for export scopes and handles NgModules declared in .d.ts files. This is done in preparation for the addition of re-export logic to solve StrictDeps issues. PR Close #28852
2019-02-19 12:05:03 -08:00
export declare class Dir {
static ngDirectiveDef: DirectiveMeta<Dir, '[dir]', never, never, never, never>;
}
export declare class ModuleA {
static ngModuleDef: ModuleMeta<ModuleA, [typeof Dir], never, [typeof Dir]>;
}
export declare class ModuleB {
static ngModuleDef: ModuleMeta<ModuleB, never, never, [typeof ModuleA]>;
}
`
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 20:22:32 +01:00
});
const {Dir, ModuleB} = refs;
const scope = resolver.resolve(ModuleB) !;
expect(scopeToRefs(scope)).toEqual([Dir]);
refactor(ivy): extract selector scope logic to a new ngtsc package (#28852) This commit splits apart selector_scope.ts in ngtsc and extracts the logic into two separate classes, the LocalModuleScopeRegistry and the DtsModuleScopeResolver. The logic is cleaned up significantly and new tests are added to verify behavior. LocalModuleScopeRegistry implements the NgModule semantics for compilation scopes, and handles NgModules declared in the current compilation unit. DtsModuleScopeResolver implements simpler logic for export scopes and handles NgModules declared in .d.ts files. This is done in preparation for the addition of re-export logic to solve StrictDeps issues. PR Close #28852
2019-02-19 12:05:03 -08:00
});
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 20:22:32 +01:00
it('should resolve correctly across modules', () => {
const {resolver, refs} = makeTestEnv({
'declaration': `
refactor(ivy): extract selector scope logic to a new ngtsc package (#28852) This commit splits apart selector_scope.ts in ngtsc and extracts the logic into two separate classes, the LocalModuleScopeRegistry and the DtsModuleScopeResolver. The logic is cleaned up significantly and new tests are added to verify behavior. LocalModuleScopeRegistry implements the NgModule semantics for compilation scopes, and handles NgModules declared in the current compilation unit. DtsModuleScopeResolver implements simpler logic for export scopes and handles NgModules declared in .d.ts files. This is done in preparation for the addition of re-export logic to solve StrictDeps issues. PR Close #28852
2019-02-19 12:05:03 -08:00
export declare class Dir {
static ngDirectiveDef: DirectiveMeta<Dir, '[dir]', never, never, never, never>;
}
refactor(ivy): correctly type class declarations in `ngtsc`/`ngcc` (#29209) Previously, several `ngtsc` and `ngcc` APIs dealing with class declaration nodes used inconsistent types. For example, some methods of the `DecoratorHandler` interface expected a `ts.Declaration` argument, but actual `DecoratorHandler` implementations specified a stricter `ts.ClassDeclaration` type. As a result, the stricter methods would operate under the incorrect assumption that their arguments were of type `ts.ClassDeclaration`, while the actual arguments might be of different types (e.g. `ngcc` would call them with `ts.FunctionDeclaration` or `ts.VariableDeclaration` arguments, when compiling ES5 code). Additionally, since we need those class declarations to be referenced in other parts of the program, `ngtsc`/`ngcc` had to either repeatedly check for `ts.isIdentifier(node.name)` or assume there was a `name` identifier and use `node.name!`. While this assumption happens to be true in the current implementation, working around type-checking is error-prone (e.g. the assumption might stop being true in the future). This commit fixes this by introducing a new type to be used for such class declarations (`ts.Declaration & {name: ts.Identifier}`) and using it consistently throughput the code. PR Close #29209
2019-03-20 12:10:57 +02:00
refactor(ivy): extract selector scope logic to a new ngtsc package (#28852) This commit splits apart selector_scope.ts in ngtsc and extracts the logic into two separate classes, the LocalModuleScopeRegistry and the DtsModuleScopeResolver. The logic is cleaned up significantly and new tests are added to verify behavior. LocalModuleScopeRegistry implements the NgModule semantics for compilation scopes, and handles NgModules declared in the current compilation unit. DtsModuleScopeResolver implements simpler logic for export scopes and handles NgModules declared in .d.ts files. This is done in preparation for the addition of re-export logic to solve StrictDeps issues. PR Close #28852
2019-02-19 12:05:03 -08:00
export declare class ModuleA {
static ngModuleDef: ModuleMeta<ModuleA, [typeof Dir], never, [typeof Dir]>;
}
`,
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 20:22:32 +01:00
'exported': `
refactor(ivy): extract selector scope logic to a new ngtsc package (#28852) This commit splits apart selector_scope.ts in ngtsc and extracts the logic into two separate classes, the LocalModuleScopeRegistry and the DtsModuleScopeResolver. The logic is cleaned up significantly and new tests are added to verify behavior. LocalModuleScopeRegistry implements the NgModule semantics for compilation scopes, and handles NgModules declared in the current compilation unit. DtsModuleScopeResolver implements simpler logic for export scopes and handles NgModules declared in .d.ts files. This is done in preparation for the addition of re-export logic to solve StrictDeps issues. PR Close #28852
2019-02-19 12:05:03 -08:00
import * as d from 'declaration';
export declare class ModuleB {
static ngModuleDef: ModuleMeta<ModuleB, never, never, [typeof d.ModuleA]>;
}
`
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 20:22:32 +01:00
});
const {Dir, ModuleB} = refs;
const scope = resolver.resolve(ModuleB) !;
expect(scopeToRefs(scope)).toEqual([Dir]);
refactor(ivy): extract selector scope logic to a new ngtsc package (#28852) This commit splits apart selector_scope.ts in ngtsc and extracts the logic into two separate classes, the LocalModuleScopeRegistry and the DtsModuleScopeResolver. The logic is cleaned up significantly and new tests are added to verify behavior. LocalModuleScopeRegistry implements the NgModule semantics for compilation scopes, and handles NgModules declared in the current compilation unit. DtsModuleScopeResolver implements simpler logic for export scopes and handles NgModules declared in .d.ts files. This is done in preparation for the addition of re-export logic to solve StrictDeps issues. PR Close #28852
2019-02-19 12:05:03 -08:00
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 20:22:32 +01:00
// Explicitly verify that the directive has the correct owning module.
expect(scope.exported.directives[0].ref.ownedByModuleGuess).toBe('declaration');
});
feat(ivy): produce and consume ES2015 re-exports for NgModule re-exports (#28852) In certain configurations (such as the g3 repository) which have lots of small compilation units as well as strict dependency checking on generated code, ngtsc's default strategy of directly importing directives/pipes into components will not work. To handle these cases, an additional mode is introduced, and is enabled when using the FileToModuleHost provided by such compilation environments. In this mode, when ngtsc encounters an NgModule which re-exports another from a different file, it will re-export all the directives it contains at the ES2015 level. The exports will have a predictable name based on the FileToModuleHost. For example, if the host says that a directive Foo is from the 'root/external/foo' module, ngtsc will add: ``` export {Foo as ɵng$root$external$foo$$Foo} from 'root/external/foo'; ``` Consumers of the re-exported directive will then import it via this path instead of directly from root/external/foo, preserving strict dependency semantics. PR Close #28852
2019-02-19 17:36:26 -08:00
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 20:22:32 +01:00
it('should write correct aliases for deep dependencies', () => {
const {resolver, refs} = makeTestEnv(
{
'deep': `
feat(ivy): produce and consume ES2015 re-exports for NgModule re-exports (#28852) In certain configurations (such as the g3 repository) which have lots of small compilation units as well as strict dependency checking on generated code, ngtsc's default strategy of directly importing directives/pipes into components will not work. To handle these cases, an additional mode is introduced, and is enabled when using the FileToModuleHost provided by such compilation environments. In this mode, when ngtsc encounters an NgModule which re-exports another from a different file, it will re-export all the directives it contains at the ES2015 level. The exports will have a predictable name based on the FileToModuleHost. For example, if the host says that a directive Foo is from the 'root/external/foo' module, ngtsc will add: ``` export {Foo as ɵng$root$external$foo$$Foo} from 'root/external/foo'; ``` Consumers of the re-exported directive will then import it via this path instead of directly from root/external/foo, preserving strict dependency semantics. PR Close #28852
2019-02-19 17:36:26 -08:00
export declare class DeepDir {
static ngDirectiveDef: DirectiveMeta<DeepDir, '[deep]', never, never, never, never>;
}
export declare class DeepModule {
static ngModuleDef: ModuleMeta<DeepModule, [typeof DeepDir], never, [typeof DeepDir]>;
}
`,
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 20:22:32 +01:00
'middle': `
feat(ivy): produce and consume ES2015 re-exports for NgModule re-exports (#28852) In certain configurations (such as the g3 repository) which have lots of small compilation units as well as strict dependency checking on generated code, ngtsc's default strategy of directly importing directives/pipes into components will not work. To handle these cases, an additional mode is introduced, and is enabled when using the FileToModuleHost provided by such compilation environments. In this mode, when ngtsc encounters an NgModule which re-exports another from a different file, it will re-export all the directives it contains at the ES2015 level. The exports will have a predictable name based on the FileToModuleHost. For example, if the host says that a directive Foo is from the 'root/external/foo' module, ngtsc will add: ``` export {Foo as ɵng$root$external$foo$$Foo} from 'root/external/foo'; ``` Consumers of the re-exported directive will then import it via this path instead of directly from root/external/foo, preserving strict dependency semantics. PR Close #28852
2019-02-19 17:36:26 -08:00
import * as deep from 'deep';
export declare class MiddleDir {
static ngDirectiveDef: DirectiveMeta<MiddleDir, '[middle]', never, never, never, never>;
}
export declare class MiddleModule {
static ngModuleDef: ModuleMeta<MiddleModule, [typeof MiddleDir], never, [typeof MiddleDir, typeof deep.DeepModule]>;
}
`,
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 20:22:32 +01:00
'shallow': `
feat(ivy): produce and consume ES2015 re-exports for NgModule re-exports (#28852) In certain configurations (such as the g3 repository) which have lots of small compilation units as well as strict dependency checking on generated code, ngtsc's default strategy of directly importing directives/pipes into components will not work. To handle these cases, an additional mode is introduced, and is enabled when using the FileToModuleHost provided by such compilation environments. In this mode, when ngtsc encounters an NgModule which re-exports another from a different file, it will re-export all the directives it contains at the ES2015 level. The exports will have a predictable name based on the FileToModuleHost. For example, if the host says that a directive Foo is from the 'root/external/foo' module, ngtsc will add: ``` export {Foo as ɵng$root$external$foo$$Foo} from 'root/external/foo'; ``` Consumers of the re-exported directive will then import it via this path instead of directly from root/external/foo, preserving strict dependency semantics. PR Close #28852
2019-02-19 17:36:26 -08:00
import * as middle from 'middle';
export declare class ShallowDir {
static ngDirectiveDef: DirectiveMeta<ShallowDir, '[middle]', never, never, never, never>;
}
export declare class ShallowModule {
static ngModuleDef: ModuleMeta<ShallowModule, [typeof ShallowDir], never, [typeof ShallowDir, typeof middle.MiddleModule]>;
}
`,
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 20:22:32 +01:00
},
new AliasGenerator(testHost));
const {ShallowModule} = refs;
const scope = resolver.resolve(ShallowModule) !;
const [DeepDir, MiddleDir, ShallowDir] = scopeToRefs(scope);
expect(getAlias(DeepDir)).toEqual({
moduleName: 'root/shallow',
name: 'ɵng$root$deep$$DeepDir',
});
expect(getAlias(MiddleDir)).toEqual({
moduleName: 'root/shallow',
name: 'ɵng$root$middle$$MiddleDir',
});
expect(getAlias(ShallowDir)).toBeNull();
feat(ivy): produce and consume ES2015 re-exports for NgModule re-exports (#28852) In certain configurations (such as the g3 repository) which have lots of small compilation units as well as strict dependency checking on generated code, ngtsc's default strategy of directly importing directives/pipes into components will not work. To handle these cases, an additional mode is introduced, and is enabled when using the FileToModuleHost provided by such compilation environments. In this mode, when ngtsc encounters an NgModule which re-exports another from a different file, it will re-export all the directives it contains at the ES2015 level. The exports will have a predictable name based on the FileToModuleHost. For example, if the host says that a directive Foo is from the 'root/external/foo' module, ngtsc will add: ``` export {Foo as ɵng$root$external$foo$$Foo} from 'root/external/foo'; ``` Consumers of the re-exported directive will then import it via this path instead of directly from root/external/foo, preserving strict dependency semantics. PR Close #28852
2019-02-19 17:36:26 -08:00
});
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 20:22:32 +01:00
it('should write correct aliases for bare directives in exports', () => {
const {resolver, refs} = makeTestEnv(
{
'deep': `
feat(ivy): produce and consume ES2015 re-exports for NgModule re-exports (#28852) In certain configurations (such as the g3 repository) which have lots of small compilation units as well as strict dependency checking on generated code, ngtsc's default strategy of directly importing directives/pipes into components will not work. To handle these cases, an additional mode is introduced, and is enabled when using the FileToModuleHost provided by such compilation environments. In this mode, when ngtsc encounters an NgModule which re-exports another from a different file, it will re-export all the directives it contains at the ES2015 level. The exports will have a predictable name based on the FileToModuleHost. For example, if the host says that a directive Foo is from the 'root/external/foo' module, ngtsc will add: ``` export {Foo as ɵng$root$external$foo$$Foo} from 'root/external/foo'; ``` Consumers of the re-exported directive will then import it via this path instead of directly from root/external/foo, preserving strict dependency semantics. PR Close #28852
2019-02-19 17:36:26 -08:00
export declare class DeepDir {
static ngDirectiveDef: DirectiveMeta<DeepDir, '[deep]', never, never, never, never>;
}
export declare class DeepModule {
static ngModuleDef: ModuleMeta<DeepModule, [typeof DeepDir], never, [typeof DeepDir]>;
}
`,
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 20:22:32 +01:00
'middle': `
feat(ivy): produce and consume ES2015 re-exports for NgModule re-exports (#28852) In certain configurations (such as the g3 repository) which have lots of small compilation units as well as strict dependency checking on generated code, ngtsc's default strategy of directly importing directives/pipes into components will not work. To handle these cases, an additional mode is introduced, and is enabled when using the FileToModuleHost provided by such compilation environments. In this mode, when ngtsc encounters an NgModule which re-exports another from a different file, it will re-export all the directives it contains at the ES2015 level. The exports will have a predictable name based on the FileToModuleHost. For example, if the host says that a directive Foo is from the 'root/external/foo' module, ngtsc will add: ``` export {Foo as ɵng$root$external$foo$$Foo} from 'root/external/foo'; ``` Consumers of the re-exported directive will then import it via this path instead of directly from root/external/foo, preserving strict dependency semantics. PR Close #28852
2019-02-19 17:36:26 -08:00
import * as deep from 'deep';
export declare class MiddleDir {
static ngDirectiveDef: DirectiveMeta<MiddleDir, '[middle]', never, never, never, never>;
}
export declare class MiddleModule {
static ngModuleDef: ModuleMeta<MiddleModule, [typeof MiddleDir], [typeof deep.DeepModule], [typeof MiddleDir, typeof deep.DeepDir]>;
}
`,
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 20:22:32 +01:00
'shallow': `
feat(ivy): produce and consume ES2015 re-exports for NgModule re-exports (#28852) In certain configurations (such as the g3 repository) which have lots of small compilation units as well as strict dependency checking on generated code, ngtsc's default strategy of directly importing directives/pipes into components will not work. To handle these cases, an additional mode is introduced, and is enabled when using the FileToModuleHost provided by such compilation environments. In this mode, when ngtsc encounters an NgModule which re-exports another from a different file, it will re-export all the directives it contains at the ES2015 level. The exports will have a predictable name based on the FileToModuleHost. For example, if the host says that a directive Foo is from the 'root/external/foo' module, ngtsc will add: ``` export {Foo as ɵng$root$external$foo$$Foo} from 'root/external/foo'; ``` Consumers of the re-exported directive will then import it via this path instead of directly from root/external/foo, preserving strict dependency semantics. PR Close #28852
2019-02-19 17:36:26 -08:00
import * as middle from 'middle';
export declare class ShallowDir {
static ngDirectiveDef: DirectiveMeta<ShallowDir, '[middle]', never, never, never, never>;
}
export declare class ShallowModule {
static ngModuleDef: ModuleMeta<ShallowModule, [typeof ShallowDir], never, [typeof ShallowDir, typeof middle.MiddleModule]>;
}
`,
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 20:22:32 +01:00
},
new AliasGenerator(testHost));
const {ShallowModule} = refs;
const scope = resolver.resolve(ShallowModule) !;
const [DeepDir, MiddleDir, ShallowDir] = scopeToRefs(scope);
expect(getAlias(DeepDir)).toEqual({
moduleName: 'root/shallow',
name: 'ɵng$root$deep$$DeepDir',
});
expect(getAlias(MiddleDir)).toEqual({
moduleName: 'root/shallow',
name: 'ɵng$root$middle$$MiddleDir',
});
expect(getAlias(ShallowDir)).toBeNull();
feat(ivy): produce and consume ES2015 re-exports for NgModule re-exports (#28852) In certain configurations (such as the g3 repository) which have lots of small compilation units as well as strict dependency checking on generated code, ngtsc's default strategy of directly importing directives/pipes into components will not work. To handle these cases, an additional mode is introduced, and is enabled when using the FileToModuleHost provided by such compilation environments. In this mode, when ngtsc encounters an NgModule which re-exports another from a different file, it will re-export all the directives it contains at the ES2015 level. The exports will have a predictable name based on the FileToModuleHost. For example, if the host says that a directive Foo is from the 'root/external/foo' module, ngtsc will add: ``` export {Foo as ɵng$root$external$foo$$Foo} from 'root/external/foo'; ``` Consumers of the re-exported directive will then import it via this path instead of directly from root/external/foo, preserving strict dependency semantics. PR Close #28852
2019-02-19 17:36:26 -08:00
});
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 20:22:32 +01:00
it('should not use an alias if a directive is declared in the same file as the re-exporting module',
() => {
const {resolver, refs} = makeTestEnv(
{
'module': `
feat(ivy): produce and consume ES2015 re-exports for NgModule re-exports (#28852) In certain configurations (such as the g3 repository) which have lots of small compilation units as well as strict dependency checking on generated code, ngtsc's default strategy of directly importing directives/pipes into components will not work. To handle these cases, an additional mode is introduced, and is enabled when using the FileToModuleHost provided by such compilation environments. In this mode, when ngtsc encounters an NgModule which re-exports another from a different file, it will re-export all the directives it contains at the ES2015 level. The exports will have a predictable name based on the FileToModuleHost. For example, if the host says that a directive Foo is from the 'root/external/foo' module, ngtsc will add: ``` export {Foo as ɵng$root$external$foo$$Foo} from 'root/external/foo'; ``` Consumers of the re-exported directive will then import it via this path instead of directly from root/external/foo, preserving strict dependency semantics. PR Close #28852
2019-02-19 17:36:26 -08:00
export declare class DeepDir {
static ngDirectiveDef: DirectiveMeta<DeepDir, '[deep]', never, never, never, never>;
}
export declare class DeepModule {
static ngModuleDef: ModuleMeta<DeepModule, [typeof DeepDir], never, [typeof DeepDir]>;
}
export declare class DeepExportModule {
static ngModuleDef: ModuleMeta<DeepExportModule, never, never, [typeof DeepModule]>;
}
`,
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 20:22:32 +01:00
},
new AliasGenerator(testHost));
const {DeepExportModule} = refs;
const scope = resolver.resolve(DeepExportModule) !;
const [DeepDir] = scopeToRefs(scope);
expect(getAlias(DeepDir)).toBeNull();
});
});
refactor(ivy): extract selector scope logic to a new ngtsc package (#28852) This commit splits apart selector_scope.ts in ngtsc and extracts the logic into two separate classes, the LocalModuleScopeRegistry and the DtsModuleScopeResolver. The logic is cleaned up significantly and new tests are added to verify behavior. LocalModuleScopeRegistry implements the NgModule semantics for compilation scopes, and handles NgModules declared in the current compilation unit. DtsModuleScopeResolver implements simpler logic for export scopes and handles NgModules declared in .d.ts files. This is done in preparation for the addition of re-export logic to solve StrictDeps issues. PR Close #28852
2019-02-19 12:05:03 -08:00
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 20:22:32 +01:00
function scopeToRefs(scope: ExportScope): Reference<ClassDeclaration>[] {
const directives = scope.exported.directives.map(dir => dir.ref);
const pipes = scope.exported.pipes.map(pipe => pipe.ref);
return [...directives, ...pipes].sort((a, b) => a.debugName !.localeCompare(b.debugName !));
}
feat(ivy): produce and consume ES2015 re-exports for NgModule re-exports (#28852) In certain configurations (such as the g3 repository) which have lots of small compilation units as well as strict dependency checking on generated code, ngtsc's default strategy of directly importing directives/pipes into components will not work. To handle these cases, an additional mode is introduced, and is enabled when using the FileToModuleHost provided by such compilation environments. In this mode, when ngtsc encounters an NgModule which re-exports another from a different file, it will re-export all the directives it contains at the ES2015 level. The exports will have a predictable name based on the FileToModuleHost. For example, if the host says that a directive Foo is from the 'root/external/foo' module, ngtsc will add: ``` export {Foo as ɵng$root$external$foo$$Foo} from 'root/external/foo'; ``` Consumers of the re-exported directive will then import it via this path instead of directly from root/external/foo, preserving strict dependency semantics. PR Close #28852
2019-02-19 17:36:26 -08:00
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 20:22:32 +01:00
function getAlias(ref: Reference<ClassDeclaration>): ExternalReference|null {
if (ref.alias === null) {
return null;
} else {
return (ref.alias as ExternalExpr).value;
}
feat(ivy): produce and consume ES2015 re-exports for NgModule re-exports (#28852) In certain configurations (such as the g3 repository) which have lots of small compilation units as well as strict dependency checking on generated code, ngtsc's default strategy of directly importing directives/pipes into components will not work. To handle these cases, an additional mode is introduced, and is enabled when using the FileToModuleHost provided by such compilation environments. In this mode, when ngtsc encounters an NgModule which re-exports another from a different file, it will re-export all the directives it contains at the ES2015 level. The exports will have a predictable name based on the FileToModuleHost. For example, if the host says that a directive Foo is from the 'root/external/foo' module, ngtsc will add: ``` export {Foo as ɵng$root$external$foo$$Foo} from 'root/external/foo'; ``` Consumers of the re-exported directive will then import it via this path instead of directly from root/external/foo, preserving strict dependency semantics. PR Close #28852
2019-02-19 17:36:26 -08:00
}
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 20:22:32 +01:00
});
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