Commit graph

134 commits

Author SHA1 Message Date
Andrew Kushnir
6f506cdff0 refactor(compiler): drop regular imports when symbols can be defer-loaded (#51171)
This commit updates the logic to drop regular imports when all symbols that it brings can be defer-loaded.
The change ensures that there is no mix of regular and dynamic imports present in a source file.

PR Close #51171
2023-08-04 11:28:07 -04:00
Payam Valadkhan
68fd99fad3 refactor(compiler-cli): Trait compiler workflow for local compilation mode (#50545)
The compiler will only include analysis and compile phases in local mode. Also a new `compileLocal` method is added to the annotation handler for local compilation.

This commit makes no change to the full/partial compilation code paths.

PR Close #50545
2023-07-13 09:34:53 -07:00
Charles Lyding
64745a89b2 refactor(compiler-cli): remove unused HandlerFlags enum (#50604)
The `HandlerFlags` enum is a leftover remnant of ngcc and is no longer used.

PR Close #50604
2023-06-20 13:01:48 -07:00
Paul Gschwendtner
82adc86353 refactor(compiler-cli): fix incremental compilation breaking when running compiler through closure (#50673)
If the compiler CLI is running through closure compiler, the trait
decorator handlers are converted from classes to functions as ES5
is picked as default output target for the bundled version.

The problem is that currently all trait handlers end up having the
same `name`. i.e. an empty string, and therefore adopting previous
traits from a previous build iteration result in the incorrect handler
being used for e.g. registrering, compiling etc- causing
ambiguous/confusing errors down the line in other parts.

We can look into changing the output target in the future, but even
then we are safer using an actual literal due to property renaming.

```$$closure$$NgModuleDecoratorHandler = function() {}`.

It is is questionable if we should just simply NOT run the compiler
through JSCompiler.

PR Close #50673
2023-06-14 15:26:00 +02:00
Kristiyan Kostadinov
f6da091228 refactor(compiler): introduce compiler infrastructure for input transforms (#50225)
Adds the necessary compiler changes to support input transform functions. The compiler output has changed in the following ways:

### Directive handler
The directive handler now extracts a reference to the input transform function and it resolves the type of its first parameter. It also asserts that the type can be referenced in the compiled output and that it doesn't clash with any pre-existing `ngAcceptInputType_` members.

### .d.ts
In the generated declaration files the compiler now inserts an `ngAcceptInputType_` member for each input with a `transform` function. The member's type corresponds to the type of the first parameter of the function, e.g.

```typescript
// foo.directive.ts
@Directive()
export class Foo {
  @Input({transform: (incomingValue: string) => parseInt(incomingValue)}) value: number;
}

// foo.directive.d.ts
export class Foo {
  value: number;
  static ngAcceptInputType_value: string;
}
```

### Type check block
If an input has `transform` function, the TCB will use the type of its first parameter for the setter type. This uses the same infrastructure as the `ngAcceptInputType_` members.

### Directive declaration
The generated runtime directive declaration call now includes the `transform` function in the `inputs` map, if the input is being transformed. The function will be picked up by the runtime in the next commit to do the actual transformation.

```typescript
// foo.directive.ts
@Directive()
export class Foo {
  @Input({transform: (incomingValue: string) => parseInt(incomingValue)}) value: number;
}

// foo.directive.js
export class Foo {
  ɵdir = ɵɵdefineDirective({
    inputs: {
      value: ['value', 'value', incomingValue => parseInt(incomingValue)]
    }
  });
}
```

PR Close #50225
2023-05-22 14:48:02 +00:00
gdarnell
d0a5530f77 refactor: remove unnecessary array copying (#50370)
Removes `Array.from` and spread operators that have no functional effect.

PR Close #50370
2023-05-22 14:47:29 +00:00
Kristiyan Kostadinov
0f40756a8a refactor(compiler): introduce internal transplanted type (#50104)
Adds a new AST for a `TransplantedType` in the compiler which will be used for some upcoming work. A transplanted type is a type node that is defined in one place in the app, but needs to be copied to a different one (e.g. the generated .d.ts). These changes also include updates to the type translator that will rewrite any type references within the type to point to the new context file.

PR Close #50104
2023-05-09 14:41:14 -07:00
Payam Valadkhan
345dd6d81a refactor(compiler-cli): Add experimental local compilation mode. (#49846)
In this mode the compiler generates code based on each individual source file without using its dependencies. This mode is suitable only for fast edit/refresh during development.

PR Close #49846
2023-04-23 18:19:35 -07:00
Andrew Scott
8a75a8ad26 fix(compiler-cli): Catch FatalDiagnosticError during template type checking (#49527)
This commit updates the type checking operation to catch
`FatalDiagnosticError` and surface them as diagnostics rather than
crashing.

Fixes https://github.com/angular/vscode-ng-language-service/issues/1881

PR Close #49527
2023-04-11 14:02:51 -07:00
JoostK
3f47535fbf refactor(compiler-cli): update TraitCompiler to account for ngcc deletion (#49136)
There used to be a subclass of `TraitCompiler` in ngcc, but now that ngcc has been removed
we can update `TraitCompiler` to no longer expose certain fields and methods.

PR Close #49136
2023-04-03 19:20:00 -07:00
Kristiyan Kostadinov
99d874fe3b feat(core): add support for TypeScript 5.0 (#49126)
Updates the project to support TypeScript 5.0 and to resolve any errors that came up as a result of the update.

PR Close #49126
2023-02-28 08:24:47 -08:00
Kristiyan Kostadinov
79cdfeb392 feat(compiler): drop support for TypeScript 4.8 (#49155)
Drops support for TypeScript 4.8 from the compiler and removes all of the compatibility code we had for it.

BREAKING CHANGE:
* TypeScript 4.8 is no longer supported.

PR Close #49155
2023-02-23 10:39:43 -08:00
Kristiyan Kostadinov
7243ae64a6 fix(compiler): resolve deprecation warning (#48652)
Fixes a deprecation warning that was being logged by compiler when generating aliases, because we weren't going through `ts.factory` to create an AST node.

PR Close #48652
2023-01-10 08:13:25 -08:00
Kristiyan Kostadinov
50f95f831e refactor(compiler): remove TypeScript 4.7 compatibility code (#48470)
We dropped support for TypeScript 4.7 in version 15, but we had to keep around the runtime code, because of g3. Now that g3 is on 4.8, we can remove the additional code.

PR Close #48470
2023-01-02 13:47:22 +00:00
Paul Gschwendtner
c9415e4d75 build: ensure bootstrap transitive runfiles are made available (#48521)
Since we generate a `.mjs` file as entry-point for jasmine tests,
a couple of issues prevented the transitive dependencies from
bootstrap targets to be brought in (causing resolution errors):

1. The `_files` (previously `_esm2015`) targets are no longer needed,
   and they also miss all the information on runfiles.
2. The aspect for computing linker mappings does not respect the
   `bootstrap` attribute from the `spec_entrypoint` so we manually
   add the extract ESM output targets (this rule works with the aspect
   and forwards linker mappings).

PR Close #48521
2022-12-19 19:50:41 +00:00
Paul Gschwendtner
20551503fa build: replace _es2015 shorthand with more flexible _files suffix (#48521)
For every `ts_library` target we expose a shorthand that grants
access to the JS files because `DefaultInfo` of a ts library
only exposes the `.d.ts` files.

We rename this away from `es2015` since in practice it's a much
higher target these days. Additionally we no longer use the devmode
output but rather use the prodmode output which has the explicit
`.mjs` output- compatible with ESM.

PR Close #48521
2022-12-19 19:50:41 +00:00
Kristiyan Kostadinov
dd42974b07 feat(core): support TypeScript 4.9 (#48005)
Updates to TypeScript 4.9 and resolves some of the errors and deprecation warnings that showed up as a result.

PR Close #48005
2022-12-06 10:45:33 -08:00
Kristiyan Kostadinov
31429eaccc feat(core): support TypeScript 4.8 (#47038)
Adds support for TypeScript 4.8 and resolves some issues that came up as a result of the update.

Most of the issues came from some changes in TypeScript where the `decorators` and `modifiers` properties were removed from most node types, and were combined into a single `modifiers` array. Since we need to continue supporting TS 4.6 and 4.7 until v15, I ended up creating a new `ngtsc/ts_compatibility` directory to make it easier to reuse the new backwards-compatible code.

PR Close #47038
2022-08-16 16:02:47 +00:00
Andrew Scott
d48cfbca75 fix(language-service): Add resource files as roots to their associated projects (#45601)
When an external template is read, adds the template file to to the project which contains.
This is necessary to keep the projects open when navigating away from HTML files.
Since a `tsconfig` cannot express including non-TS files,
we need another way to indicate the template files are considered part of the project.

Note that this does not ensure that the project in question _directly_ contains the component
file. That is, the project might just include the component file through the program rather
than directly in the `include` glob of the `tsconfig`. This distinction is somewhat important
because the TypeScript language service/server prefers projects which _directly_ contain the TS
file (see `projectContainsInfoDirectly` in the TS codebase). What this means it that there can
possibly be a different project used between the TS and HTML files.

For example, in Nx projects, the referenced configs are `tsconfig.app.json` and
`tsconfig.editor.json`. `tsconfig.app.json` comes first in the base `tsconfig.json` and
contains the entry point of the app. `tsconfig.editor.json` contains the `**.ts` glob of all TS
files. This means that `tsconfig.editor.json` will be preferred by the TS server for TS files
but the `tsconfig.app.json` will be used for HTML files since it comes first and we cannot
effectively express `projectContainsInfoDirectly` for HTML files.

We could consider also updating the language server implementation to attempt
to select the project to use for the template file based on which project
contains its component file directly, using either the internal `project.projectContainsInfoDirectly`
or as a workaround, check `project.isRoot(componentTsFile)`.

Finally, keeping the projects open is hugely important in the solution style config case like
Nx. When a TS file is opened, TypeScript will only retain `tsconfig.editor.json` and not
`tsconfig.app.json`. However, if our extension does not also know to select
`tsconfig.editor.json`, it will automatically select `tsconfig.app.json` since it is defined
first in the `tsconfig.json` file. So we need to teach TS server that we are (1) interested in
keeping projects open when there is an HTML file open and (2) optionally attempt to do this
_only_ for projects that we know the TS language service will prioritize in TS files (i.e.,
attempt to only keep `tsconfig.editor.json` open and allow `tsconfig.app.json` to close)
and prioritize that project for all requests.

fixes https://github.com/angular/vscode-ng-language-service/issues/1623
fixes https://github.com/angular/vscode-ng-language-service/issues/876

PR Close #45601
2022-05-10 09:36:26 -07:00
Kristiyan Kostadinov
c9d566ce4b feat(core): drop support for TypeScript 4.4 and 4.5 (#45394)
Drops support for TypeScript older than 4.6 and removes some workarounds in the compiler.

BREAKING CHANGE:
TypeScript versions older than 4.6 are no longer supported.

PR Close #45394
2022-03-24 10:51:47 -07:00
Alex Rickabaugh
34c5b7a499 refactor(compiler-cli): support non-error diagnostics from traits (#45024)
Previously, the `TraitCompiler` would naively consider a compilation as
failed if either analysis or resolution produced any diagnostics. This
commit adjusts the logic to only consider error diagnostics, which allows
warnings to be produced from `DecoratorHandler`s.

This is a precursor commit to introducing such a warning. As such, the
logic here will be tested in the next commit.

PR Close #45024
2022-03-22 11:11:53 -07:00
Kristiyan Kostadinov
ff6be32c1a refactor(compiler): remove usages of deprecated AST creation functions (#45134)
Proactively replaces our usages of the deprecated `ts.create*` methods in favor of using `ts.factory.create*` so that we're not surprised when the TS removes them in the future. Also accounts for some cases where the signature had changed.

PR Close #45134
2022-02-22 10:22:47 -08:00
JoostK
5efebf87be perf(compiler-cli): reduce analysis work during incremental rebuilds (#44731)
This commit reduces the analysis work that needs to happen during an
incremental rebuild by properly recording files for which no traits were found
in the set of files that have no traits, such that the same file doesn't have
to be reanalyzed during subsequent rebuilds. It also excludes shim files from
analysis.

PR Close #44731
2022-01-18 14:51:08 -08:00
Paul Gschwendtner
c46d533b22 build: switch devmode output to es2015 (#44505)
To make our test output i.e. devmode output more aligned
with what we produce in the NPM packages, or to be more
aligned with what Angular applications will usually consume,
the devmode output is switched from ES5 to ES2015.

Additionally various tsconfigs (outside of Bazel) have been
updated to match with the other parts of the build. The rules
are:

ES2015 for test configurations, ES2020 for actual code that will
end up being shipped (this includes the IDE-only tsconfigs).

PR Close #44505
2022-01-05 23:20:20 +00:00
Kristiyan Kostadinov
d56e3f43a1 feat(core): support TypeScript 4.5 (#44164)
Adds support for TypeScript 4.5. Includes the following changes:
* Bumping the package versions.
* Fixing a few calls to `createExportSpecifier` and `createImportSpecifier` that require an extra parameter.
* Adding some missing methods to the TS compiler hosts.
* Fixing an issue in the TS mocks for the ngcc tests where a regex was too agressive and was trying to match a path like `/node_modules/@typescript/lib-es5`.
* Accounting for type-only import specifiers when reporting DI errors (see #43620).

Fixes #43620.

PR Close #44164
2021-11-30 11:59:02 -05:00
Paul Gschwendtner
8d7f1098d8 refactor: make all imports compatible with ESM/CJS output. (#43431)
As outlined in the previous commit which enabled the `esModuleInterop`
TypeScript compiler option, we need to update all namespace imports
for `typescript` to default imports. This is needed to allow for
TypeScript to be imported at runtime from an ES module.

Similar changes are needed for modules like `semver` where the types incorrectly
suggest named exports that will not exist at runtime when imported from ESM.

This commit refactors all imports to match with the lint rule we have
configured in the previous commit. See the previous commit for more
details on why certain imports have been changed.

A special case are the imports to `@babel/core` and `@babel/types`. For
these a special interop is needed as both default imports, or named
imports break the other module format. e.g default imports would work
well for ESM, but it breaks for CJS. For CJS, the named imports would
only work, but in ESM, only the default export exist. We work around
this for now until the devmode is using ESM as well (which would be
consistent with prodmode and gives us more valuable test results). More
details on the interop can be found in the `babel_core.ts` files (two
interops are needed for both localize/or the compiler-cli).

PR Close #43431
2021-10-01 18:28:45 +00:00
Daniel Trevino
ff858ac9d8 refactor(compiler-cli): add extendedTemplateCheck phase to compiler (#43107)
This commit integrates extended template checks with the compiler, by
adding another phase of diagnostics generation. This integration is
under the `_extendedTemplateDiagnostics` flag.

Refs #42966

PR Close #43107
2021-08-19 11:55:27 -07:00
JoostK
5fb23eccea perf(compiler-cli): skip analysis in incremental builds for files without Angular behavior (#42562)
In an incremental rebuild, the compiler attempts to reuse as much
analysis data from a prior compilation as possible to avoid doing the
analysis work again. For source files without Angular behavior however,
no analysis data would be recorded such that the source file had to be
reanalyzed each rebuild, even if it has not changed.

This commit avoids the analysis of such source files by registering
these files as not containing any Angular behavior; allowing subsequent
rebuilds to avoid the analysis work.

PR Close #42562
2021-07-21 22:40:38 +00:00
Paul Gschwendtner
b5ab7aff43 refactor: add override keyword to members implementing abstract declarations (#42512)
In combination with the TS `noImplicitOverride` compatibility changes,
we also want to follow the best-practice of adding `override` to
members which are implemented as part of abstract classes. This
commit fixes all instances which will be flagged as part of the
custom `no-implicit-override-abstract` TSLint rule.

PR Close #42512
2021-07-12 13:11:17 -07:00
Alex Rickabaugh
e83d7cb2d3 refactor(compiler-cli): support xi18n in ngtsc (#42485)
xi18n is the operation of extracting i18n messages from templates in the
compilation. Previously, only View Engine was able to perform xi18n. This
commit implements xi18n in the Ivy compiler, and a copy of the View Engine
test for Ivy verifies that the results are identical.

PR Close #42485
2021-06-21 16:50:28 +00:00
JoostK
22bda2226b fix(compiler-cli): prevent prior compilations from being retained in watch builds (#42537)
In watch builds, the compiler attempts to reuse as much information from
a prior compilation as possible. To accomplish this, it keeps a
reference to the most recently succeeded `TraitCompiler`, which contains
all analysis data for the program. However, `TraitCompiler` has an
internal reference to an `IncrementalBuild`, which is itself built on
top of its prior state. Consequently, all prior compilations continued
to be referenced, preventing garbage collection from cleaning up these
instances.

This commit changes the `AnalyzedIncrementalState` to no longer retain
a `TraitCompiler` instance, but only the analysis data it contains. This
breaks the retainer path to the prior incremental state, allowing it to
be garbage collected.

PR Close #42537
2021-06-09 16:10:04 -07:00
JoostK
69e57827e2 refactor(compiler-cli): remove unused return type transform (#41996)
With the removal of the `ModuleWithProviders` transform in the parent commit,
the underlying dts transform can also be removed as it is not used elsewhere.

PR Close #41996
2021-06-03 11:38:58 -07:00
JoostK
ce8720910d refactor(compiler-cli): remove ModuleWithProviders generic type transform (#41996)
The `ModuleWithProviders` type has required a generic type since Angular 10,
so it is no longer necessary for the compiler to transform usages of the
`ModuleWithProviders` type without the generic type, as that should have
been reported as a compile error. This commit removes the detection logic
from ngtsc.

PR Close #41996
2021-06-03 11:38:58 -07:00
Alex Rickabaugh
e039075a28 fix(compiler-cli): better detect classes that are indirectly exported (#42207)
The compiler flag `compileNonExportedClasses` allows the Angular compiler to
process classes which are not exported at the top level of a source file.
This is often used to allow for AOT compilation of test classes inside
`it()` test blocks, for example.

Previously, the compiler would identify exported classes by looking for an
`export` modifier on the class declaration itself. This works for the
trivial case, but fails for indirectly exported classes:

```typescript
// Component is declared unexported.
@Component({...})
class FooCmp {...}

// Indirect export of FooCmp
export {FooCmp};
```

This is not an immediate problem for most application builds, since the
default value for `compileNonExportedClasses` is `true` and therefore such
classes get compiled regardless.

However, in the Angular Language Service now, `compileNonExportedClasses` is
forcibly overridden to `false`. That's because the tsconfig used by the IDE
and Language Service is often far broader than the application build's
configuration, and pulls in test files that can contain unexported classes
not designed with AOT compilation in mind.

Therefore, the Language Service has trouble working with such structures.

In this commit, the `ReflectionHost` gains a new API for detecting whether a
class is exported. The implementation of this method now not only considers
the `export` modifier, but also scans the `ts.SourceFile` for indirect
exports like the example above. This ensures the above case will be
processed directly in the Language Service.

This new operation is cached using an expando symbol on the `ts.SourceFile`,
ensuring good performance even when scanning large source files with lots of
exports (e.g. a FESM file under `ngcc`).

Fixes #42184.

PR Close #42207
2021-06-01 12:16:46 -07:00
Alex Rickabaugh
94ec0af582 refactor(compiler-cli): replace the IncrementalDriver with a new design (#41475)
This commit replaces the `IncrementalDriver` abstraction which powered
incremental compilation in the compiler with a new `IncrementalCompilation`
design. Principally, it separates two concerns which were tied together in
the previous implementation:

1. Tracking the reusable state of a compilation at any given point that
   could be reused in a subsequent future compilation.

2. Making use of a prior compilation's state to accelerate the current one.

The new abstraction adds explicit tracking and types to deal with both of
these concerns separately, which greatly reduces the complexity of the state
tracking that `IncrementalDriver` used to perform.

PR Close #41475
2021-04-13 13:05:35 -07:00
JoostK
1381301afe refactor(compiler-cli): track a dependency on a default import on WrappedNodeExpr (#41557)
Previously, the `DefaultImportRecorder` interface was used as follows:

1. During the analysis phase, the default import declaration of an
   identifier was recorded.

2. During the emit phase each emitted identifier would be recorded.
   The information from step 1 would then be used to determine the
   default import declaration of the identifier which would be
   registered as used.

3. A TypeScript transform would taint all default imports that were
   registered as used in step 2 such that the imports are not elided
   by TypeScript.

In incremental compilations, a file may have to be emitted even if its
analysis data has been reused from the prior compilation. This would
mean that step 1 is not executed, resulting in a mismatch in step 2 and
ultimately in incorrectly eliding the default. This was mitigated by
storing the mapping from identifier to import declaration on the
`ts.SourceFile` instead of a member of `DefaultImportTracker` such that
it would also be visible to the `DefaultImportRecorder` of subsequent
compiles even if step 1 had not been executed.

Ultimately however, the information that is being recorded into the
`DefaultImportRecorder` has a longer lifetime than a single
`DefaultImportRecorder` instance, as that is only valid during a single
compilation whereas the identifier to import declaration mapping
outlives a single compilation. This commit replaces the registration of
this mapping by attaching the default import declaration on the output
AST node that captures the identifier. This enables the removal of
all of the `DefaultImportRecorder` usages throughout the analysis phase
together with the `DefaultImportRecorder` interface itself.

PR Close #41557
2021-04-12 17:05:10 -07:00
Alex Rickabaugh
48fec08c95 perf(compiler-cli): refactor the performance tracing infrastructure (#41125)
ngtsc has an internal performance tracing package, which previously has not
really seen much use. It used to track performance statistics on a very
granular basis (microseconds per actual class analysis, for example). This
had two problems:

* it produced voluminous amounts of data, complicating the analysis of such
  results and providing dubious value.
* it added nontrivial overhead to compilation when used (which also affected
  the very performance of the operations being measured).

This commit replaces the old system with a streamlined performance tracing
setup which is lightweight and designed to be always-on. The new system
tracks 3 metrics:

* time taken by various phases and operations within the compiler
* events (counters) which measure the shape and size of the compilation
* memory usage measured at various points of the compilation process

If the compiler option `tracePerformance` is set, the compiler will
serialize these metrics to a JSON file at that location after compilation is
complete.

PR Close #41125
2021-03-24 13:42:24 -07:00
JoostK
fed6a7ce7d perf(compiler-cli): detect semantic changes and their effect on an incremental rebuild (#40947)
In Angular programs, changing a file may require other files to be
emitted as well due to implicit NgModule dependencies. For example, if
the selector of a directive is changed then all components that have
that directive in their compilation scope need to be recompiled, as the
change of selector may affect the directive matching results.

Until now, the compiler solved this problem using a single dependency
graph. The implicit NgModule dependencies were represented in this
graph, such that a changed file would correctly also cause other files
to be re-emitted. This approach is limited in a few ways:

1. The file dependency graph is used to determine whether it is safe to
   reuse the analysis data of an Angular decorated class. This analysis
   data is invariant to unrelated changes to the NgModule scope, but
   because the single dependency graph also tracked the implicit
   NgModule dependencies the compiler had to consider analysis data as
   stale far more often than necessary.
2. It is typical for a change to e.g. a directive to not affect its
   public API—its selector, inputs, outputs, or exportAs clause—in which
   case there is no need to re-emit all declarations in scope, as their
   compilation output wouldn't have changed.

This commit implements a mechanism by which the compiler is able to
determine the impact of a change by comparing it to the prior
compilation. To achieve this, a new graph is maintained that tracks all
public API information of all Angular decorated symbols. During an
incremental compilation this information is compared to the information
that was captured in the most recently succeeded compilation. This
determines the exact impact of the changes to the public API, which
is then used to determine which files need to be re-emitted.

Note that the file dependency graph remains, as it is still used to
track the dependencies of analysis data. This graph does no longer track
the implicit NgModule dependencies, which allows for better reuse of
analysis data.

These changes also fix a bug where template type-checking would fail to
incorporate changes made to a transitive base class of a
directive/component. This used to be a problem because transitive base
classes were not recorded as a transitive dependency in the file
dependency graph, such that prior type-check blocks would erroneously
be reused.

This commit also fixes an incorrectness where a change to a declaration
in NgModule `A` would not cause the declarations in NgModules that
import from NgModule `A` to be re-emitted. This was intentionally
incorrect as otherwise the performance of incremental rebuilds would
have been far worse. This is no longer a concern, as the compiler is now
able to only re-emit when actually necessary.

Fixes #34867
Fixes #40635
Closes #40728

PR Close #40947
2021-03-08 08:41:19 -08:00
Alex Rickabaugh
fbc9df181e feat(compiler-cli): support producing Closure-specific PURE annotations (#41021)
For certain generated function calls, the compiler emits a 'PURE' annotation
which informs Terser (the optimizer) about the purity of a specific function
call. This commit expands that system to produce a new Closure-specific
'pureOrBreakMyCode' annotation when targeting the Closure optimizer instead
of Terser.

PR Close #41021
2021-03-04 16:04:38 -08:00
Alex Rickabaugh
80f4ff3338 fix(compiler-cli): set TS original node on imported namespace identifiers (#40711)
This commit causes imports added by ngtsc's `ImportManager` to have their
TypeScript "original node" set to the generated `ts.ImportDeclaration`
statement.

In g3, the tsickle transformer runs after the Angular transformer and post-
processes Angular's compilation output. One of its post-processing tasks is
to transform generated imports and references to imported symbols from the
commonjs module system to the g3 module system. Part of this transformation
involves recognizing modules with specific metadata and altering references
to symbols from those modules accordingly.

Normally, tsickle can rely on TypeScript's binding for an imported symbol to
find its origin module and thus the correct metadata for the symbol. However
the Angular transform generates new synthetic imports which don't have such
binding information. Angular's imports are always namespace imports of the
form:

```
import * as qualifier 'module/specifier';
```

References to such an import are then of the form `qualifier.SymbolName`.

To process such imports properly, tsickle needs to be able to associate the
reference to `qualifier` in the expression `qualifer.SymbolName` with the
`ts.ImportDeclaration` statement that defines it. It expects to do this by
looking at the `ts.getOriginalNode()` for the `qualifier` reference, which
should be the `ts.ImportDeclaration`. This commit changes ngtsc's import
generation mechanism to set the original node on `qualifier` identifiers
according to this expectation.

This commit is not tested in the direct compiler tests, since:

1) there is no observable behavior externally from setting the original node
2) we don't have tests that intercept transformer operations (which could be
   used to directly assert against the AST nodes)
3) tsickle's published version does not (yet) contain the g3-specific
   transformations which rely on the original node and would thus allow the
   behavior to be observed.

Instead, we rely on the g3 testing suite to validate the correctness of this
fix. Breaking this functionality would cause g3 compilation errors for
targets, since tsickle would be unable to transform imports correctly.

PR Close #40711
2021-02-11 15:58:25 -08:00
Alex Rickabaugh
be979c907b perf(compiler-cli): introduce fast path for resource-only updates (#40561)
This commit adds a new `IncrementalResourceCompilationTicket` which reuses
an existing `NgCompiler` instance and updates it to optimally process
template-only and style-only changes. Performing this update involves both
instructing `DecoratorHandler`s to react to the resource changes, as well as
invalidating `TemplateTypeChecker` state for the component(s) in question.
That way, querying the `TemplateTypeChecker` will trigger new TCB generation
for the changed template(s).

PR Close #40561
2021-01-27 10:45:57 -08:00
Bjarki
ef892743ec feat(compiler): support tagged template literals in code generator (#39122)
Add a TaggedTemplateExpr to represent tagged template literals in
Angular's syntax tree (more specifically Expression in output_ast.ts).
Also update classes that implement ExpressionVisitor to add support for
tagged template literals in different contexts, such as JIT compilation
and conversion to JS.

Partial support for tagged template literals had already been
implemented to support the $localize tag used by Angular's i18n
framework. Where applicable, this code was refactored to support
arbitrary tags, although completely replacing the i18n-specific support
for the $localize tag with the new generic support for tagged template
literals may not be completely trivial, and is left as future work.

PR Close #39122
2020-12-07 16:20:04 -08:00
Alex Rickabaugh
6d42954327 fix(compiler-cli): remove the concept of an errored trait (#39923)
Previously, if a trait's analysis step resulted in diagnostics, the trait
would be considered "errored" and no further operations, including register,
would be performed. Effectively, this meant that the compiler would pretend
the class in question was actually undecorated.

However, this behavior is problematic for several reasons:

1. It leads to inaccurate diagnostics being reported downstream.

For example, if a component is put into the error state, for example due to
a template error, the NgModule which declares the component would produce a
diagnostic claiming that the declaration is neither a directive nor a pipe.
This happened because the compiler wouldn't register() the component trait,
so the component would not be recorded as actually being a directive.

2. It can cause incorrect behavior on incremental builds.

This bug is more complex, but the general issue is that if the compiler
fails to associate a component and its module, then incremental builds will
not correctly re-analyze the module when the component's template changes.
Failing to register the component as such is one link in the larger chain of
issues that result in these kinds of issues.

3. It lumps together diagnostics produced during analysis and resolve steps.

This is not causing issues currently as the dependency graph ensures the
right classes are re-analyzed when needed, instead of showing stale
diagnostics. However, the dependency graph was not intended to serve this
role, and could potentially be optimized in ways that would break this
functionality.

This commit removes the concept of an "errored" trait entirely from the
trait system. Instead, analyzed and resolved traits have corresponding (and
separate) diagnostics, in addition to potentially `null` analysis results.
Analysis (but not resolution) diagnostics are carried forward during
incremental build operations. Compilation (emit) is only performed when
a trait reaches the resolved state with no diagnostics.

This change is functionally different than before as the `register` step is
now performed even in the presence of analysis errors, as long as analysis
results are also produced. This fixes problem 1 above, and is part of the
larger solution to problem 2.

PR Close #39923
2020-12-03 13:42:13 -08:00
Alan Agius
0929099e41 refactor(compiler-cli): remove TypeScript 3.9 workarounds (#39586)
With this change we remove code which was used to support both TypeScript 3.9 and TypeScript 4.0

This code is now no longer needed because G3 is on TypeScript 4.0

PR Close #39586
2020-11-06 15:26:51 -08:00
Pete Bacon Darwin
0accd1e68d refactor(compiler-cli): implement DeclarationNode node type (#38959)
Previously the `ConcreteDeclaration` and `InlineDeclaration` had
different properties for the underlying node type. And the `InlineDeclaration`
did not store a value that represented its declaration.

It turns out that a natural declaration node for an inline type is the
expression. For example in UMD/CommonJS this would be the `exports.<name>`
property access node.

So this expression is now used for the `node` of `InlineDeclaration` types
and the `expression` property is dropped.

To support this the codebase has been refactored to use a new `DeclarationNode`
type which is a union of `ts.Declaration|ts.Expression` instead of `ts.Declaration`
throughout.

PR Close #38959
2020-10-12 08:32:46 -07:00
JoostK
9d04b95166 refactor(compiler-cli): setup compilation mode to enable generating linker code (#38938)
This is a precursor to introducing the Angular linker. As an initial
step, a compiler option to configure the compilation mode is introduced.
This option is initially internal until the linker is considered ready.

PR Close #38938
2020-09-30 12:49:16 -07:00
Pete Bacon Darwin
297b123151 refactor(compiler-cli): make the output AST translator generic (#38775)
This commit refactors the `ExpressionTranslatorVisitor` so that it
is not tied directly to the TypeScript AST. Instead it uses generic
`TExpression` and `TStatement` types that are then converted
to concrete types by the `TypeScriptAstFactory`.

This paves the way for a `BabelAstFactory` that can be used to
generate Babel AST nodes instead of TypeScript, which will be
part of the new linker tool.

PR Close #38775
2020-09-21 12:27:27 -07:00
Pete Bacon Darwin
b0a43872a8 refactor(compiler-cli): remove unused imports (#38775)
These imports are not used and so are just bloating the code unnecessarily

PR Close #38775
2020-09-21 12:27:27 -07:00
Alan Agius
0fc44e0436 feat(compiler-cli): add support for TypeScript 4.0 (#38076)
With this change we add support for TypeScript 4.0

PR Close #38076
2020-08-24 13:06:59 -07:00
Doug Parker
887c350f9d refactor(compiler): wrap large strings in function (#38253)
Large strings constants are now wrapped in a function which is called whenever used. This works around a unique
limitation of Closure, where it will **always** inline string literals at **every** usage, regardless of how large the
string literal is or how many times it is used.The workaround is to use a function rather than a string literal.
Closure has differently inlining semantics for functions, where it will check the length of the function and the number
of times it is used before choosing to inline it. By using a function, `ngtsc` makes Closure more conservative about
inlining large strings, and avoids blowing up the bundle size.This optimization is only used if the constant is a large
string. A wrapping function is not included for other use cases, since it would just increase the bundle size and add
unnecessary runtime performance overhead.

PR Close #38253
2020-07-29 13:31:03 -07:00