In ESM5 decorated classes can be indicated by calls to `__decorate()`.
Previously the `ReflectionHost.findDecoratedClasses()` call would identify
helper calls of the form:
```
SomeClass = tslib_1.__decorate(...);
```
But it was missing calls of the form:
```
SomeClass = SomeClass_1 = tslib_1.__decorate(...);
```
This form is common in `@NgModule()` decorations, where the class
being decorated is referenced inside the decorator or another
member.
This commit now ensures that a chain of assignments, of any length,
is now identified as a class decoration if it results in a call to
`__decorate()`.
Fixes#27841
PR Close#27848
* Interface that a class can implement to be a guard deciding if a children can be loaded.
'...if a children...' changed to '...if children...'
* Interface that a class can implement to be a guard deciding if children can be loaded.
PR Close#27894
This change matches the routes found in the following code example
for auth.guard.ts as well as the login.component.1.ts in the "Add
the LoginComponent" section.
PR Close#27879
Previously, we had the logic to schedule a change detection tick
inside markViewDirty(). This is fine when used in markDirty(),
the user-facing API, because it should always schedule change
detection. However, this doesn't work when used in markForCheck()
because historically markForCheck() does not trigger change
detection.
To be backwards compatible, this commit moves the scheduling
logic out of markViewDirty() and into markDirty(), so
markForCheck no longer triggers a tick.
PR Close#28048
Libraries that create components dynamically using component factories,
such as `@angular/upgrade` need to pass blocks of projected content
through to the `ComponentFactory.create()` method. These blocks
are extracted from the content by matching CSS selectors defined in
`<ng-content select="..">` tags found in the component's template.
The Angular compiler collects these CSS selectors when compiling a component's
template, and exposes them via the `ComponentFactory.ngContentSelectors`
property.
This change ensures that this property is filled correctly when the
component factory is created by compiling a component with the Ivy engine.
PR Close#27867
When a pipe returns an instance of WrappedValue we should "invalidate" value
of a binding where the pipe in question is used.
Before this change we've always wrtten the invalidation value (NO_CHANGE) to
the binding root this invalidating the first binding in a LView. This commit
corrects the binding index calculation so the binding with a pipe is invalidated.
PR Close#28044
Previous to this change, there was a lot of noise when
trying to find tests in FIND_PASSING_TESTS mode because
tests marked "onlyInIvy" were also listed as "already
passing". Since these tests are not "fixmes" that need
to be enabled, it is not useful to have them listed.
This commit removes "onlyInIvy" tests from consideration
when running in this manual mode. The tests should still
run on CI by default (since FIND_PASSING_TESTS mode will
be false).
PR Close#28036
There are various e2e tests with the `_spec.ts` suffix in the Angular project. Currently the protractor Bazel rule does not pick up these files and just ignores them. Since underscore is commonly used, we should support this.
Needed for the conversion fo the `examples` to Bazel.
PR Close#28022
Prior to this change Component decorator was resolving `encapsulation` value a bit incorrectly, which resulted in `encapsulation: NaN` in compiled code. Now we resolve the value as Enum memeber and throw if it's not the case. As a part of this update, the `changeDetection` field handling is also added, the resolution logic is the same as the one used for `encapsulation` field.
PR Close#27971
exportAs in @Directive metadata supports multiple values, separated by
commas. Previously it was treated as a single value string.
This commit modifies the compiler to understand that exportAs is a
string[]. It stops short of carrying the multiple values through to the
runtime. Instead, it only emits the first one. A future commit will modify
the runtime to accept all the values.
PR Close#28001
Generated factory shims can import from @angular/core. However, we have
special logic in place to rewrite self-imports when generating code for
@angular/core.
This commit leverages the new standalone ImportRewriter interface to
properly rewrite imports in generated factory shims. Before this fix,
a generated factory file for core would look like:
```typescript
import * as i0 from './r3_symbols';
export var ApplicationModuleNgFactory = new ɵNgModuleFactory(...);
```
This is invalid, as ɵNgModuleFactory is just NgModuleFactory when imported
via r3_symbols.
FW-881 #resolve
PR Close#27998
Currently the ImportManager class handles various rewriting actions of
imports when compiling @angular/core. This is required as code compiled
within @angular/core cannot import from '@angular/core'. To work around
this, imports are rewritten to get core symbols from a particular file,
r3_symbols.ts.
In this refactoring, this rewriting logic is moved out of the ImportManager
and put behind an interface, ImportRewriter. There are three implementers
of the interface:
* NoopImportRewriter, used for compiling all non-core packages.
* R3SymbolsImportRewriter, used when ngtsc compiles @angular/core.
* NgccFlatImportRewriter, used when ngcc compiles @angular/core (special
logic is needed because ngcc has to rewrite imports in flat bundles
differently than in non-flat bundles).
This is a precursor to using this rewriting logic in other contexts besides
the ImportManager.
PR Close#27998
Project created by @angular/cli depends on Bazel at build time and
we should not assume that Bazel is available globally.
Instead, the project should specify an explicit dev dependency on
`@bazel/bazel`.
PR Close#28032
TestBed used to have its own implementation of the `transitiveScopesFor` function, customized for TestBed needs (to compile NgModules). This change unifies the `transitiveScopesFor` function usage by importing it from the `jit/module.ts` script and adding extra argument to configure its behavior (how to compile NgModule), so that TestBed can leverage it.
PR Close#27860
These tests validate the ability of the View Engine TestBed to consume
summary metadata, a mechanism which allows the TestBed to use
AOT-compiled components & directives in tests. It achieves this through
two operations which are independently obsolete in Ivy:
1. It injects CompileMetadataResolver, a View Engine specific compiler
internal class which extracts global analysis metadata from classes,
and uses it to construct summary metadata. This happens in a
beforeEach() block which calls createSummaries().
2. It uses TestBed.initTestEnvironment to pass summary metadata to the
TestBed itself. Any such metadata is ignored in Ivy.
Operation #1 makes it impossible to run these tests under Ivy, as the
CompileMetadataResolver is not available with an Ivy compiler.
Ivy itself does not rely on summary data, and the R3TestBed can depend
directly on AOT compiled components without it. Thus, the spirit of thes
tests is obsolete in an Ivy world.
FW-838 #resolve
PR Close#28027
Previously the canInsertNativeNode and getRenderParent functions had almost
_exaclty_ the same logic. What was worse that getRenderParent was calling
canInsertNativeNode thus executing the same, non-trivial logic twice.
This commit merges canInsertNativeNode and getRenderParent into one function.
Now getRenderParent will return a native parent or null if a node can't be
inserted (content projection, root of a view that is not inserted etc.).
PR Close#28011
Previously presence and type of a parent tNode was split among
canInsertNativeNode, canInsertNativeChildOfView and canInsertNativeChildOfElement.
This commit centralises the logic in canInsertNativeNode thus simplifying
the overall logic and making canInsertNativeChildOfElement trivial.
PR Close#28011
Instead of relying on implicit dependencies through Angular, the WORKSPACE
of the project should explicitly add rules_nodejs and rules_typescript so
it can better control the versions.
PR Close#28000
A constructor function may have been "synthesized" by TypeScript during
JavaScript emit, in the case no user-defined constructor exists and e.g.
property initializers are used. Those initializers need to be emitted
into a constructor in JavaScript, so the TypeScript compiler generates a
synthetic constructor.
This commit adds identification of such constructors as ngcc needs to be
able to tell if a class did originally have a constructor in the
TypeScript source. When a class has a superclass, a synthesized
constructor must not be considered as a user-defined constructor as that
prevents a base factory call from being created by ngtsc, resulting in a
factory function that does not inject the dependencies of the superclass.
Hence, we identify a default synthesized super call in the constructor
body, according to the structure that TypeScript emits.
PR Close#27897