The runtime default is now `standalone: true`.
`ɵɵdefineComponent`, `ɵɵdefineDirective` and `ɵɵdefinePipe` now set `standalone` as `true` by default in the definitions.
PR Close#58238
Fixes that the output AST's `RecursiveVisitor` wasn't visiting all the nodes when an arrow function has an implicit return. The problem was that we were calling the `visitExpression` method directly, instead of `.visitExpression`. This doesn't affect existing code since the `RecursiveVisitor` isn't used anywhere, but it will affect future HMR code.
PR Close#58205
While effective, `preservePlaceholders` unfortunately is not viable in google3 at the moment due to some complexities with how TC extracts messages. Therefore this feature is being removed in favor of whitespace trimming of expressions, which is viable for TC and provides most of the same benefit.
This is a partial revert of dab722f9c8.
PR Close#58176
This parses and reserializes expressions to normalize their whitespace formatting and make them more durable to insignificant changes in whitespace which might otherwise alter message IDs despite no translator-meaningful change being made.
PR Close#58176
This serializes the expression AST back into a string. This is useful to normalize whitespace in expressions so i18n messages are not affected by insignificant changes (such as going from `{{ foo }}` to `{{\n foo\n}}`).
PR Close#58176
With this commit directives, components & pipes are standalone by default.
To be declared in an `NgModule`, those require now `standalone: false`.
PR Close#58169
For the HMR initializer block to support being used in a Vite setup with
import analysis, the import call expression needs to be a runtime generated
value and include the `@vite-ignore` special comment. Without the first,
Vite will error prior to loading the application. Without the second, a
warning will be shown for each import which is effectively each component
within the application when HMR is enabled.
PR Close#58173
The compiler's AST factories now support generating a dynamic import call
expression with either a string literal or an expression. The later is useful
for cases where the URL is dynamically created at runtime. Also, a leading
comment can now be added to the URL for cases where bundler behavior
needs to be included via special comments.
PR Close#58173
Message which only contain a single placeholder cannot be translated, there is no static text to be translated. Therefore these messages can be skipped and shouldn't be extracted at all.
Ideally, Angular would throw an error if a message is only a placeholder, since it should not contain an `i18n` attribute at all. However this would be a breaking change and require a migration which isn't in scope right now. We can explore converting this to a hard error sometime in the future.
PR Close#58154
parse constructions like `:where(:host-context(.foo))` correctly
revert logic which lead to decreased specificity if `:where` was applied
to another selector, for example `div` is transformed to `div[contenta]`
with specificity of (0,1,1) so `div:where(.foo)` should not decrease it
leading to `div[contenta]:where(.foo)` with the same specificity (0,1,1)
instead of `div:where(.foo[contenta])` with specificity equal to (0,0,1)
PR Close#57796
add support for nested and deeply nested (up to three levels) selectors,
parse multiple :host selectors, scope selectors within pseudo functions
PR Close#57796
allow css combinators within pseudo selector functions, parsing those
correctly. Similarly to previous version, don't break selectors
into part if combinators are within parenthesis, for example
`:where(.one > .two)`
PR Close#57796
fix scoping and transforming logic of the `shimCssText` for the
components with encapsulated view:
- add support for pseudo selector functions
- apply content scoping for inner selectors of `:is()` and `:where()`
- allow multiple comma separated selectors inside pseudo selectors
Fixes#45686
PR Close#57796
Make it so that encapsulation for empty styles, styles containing only whitespace and comments, etc.
is handled the same way as with no styles at all.
Components without styles already have view encapsulation set to `None`
to avoid generating unnecessary attributes for style scoping, like `_ngcontent-ng-c1` (#27175)
If the component has an empty external styles file instead, the compiler would generate
a component definition without the `styles` field, but still using the default encapsulation.
This can result in runtime overhead if the developer forgets to delete the empty styles file
generated automatically for new components by Angular CLI.
Closes#16602
PR Close#57130
Consider a template with a context variable `a`:
```
<ng-template let-a>{{this.a}}</ng-template>
```
t push -fAn interpolation inside that template to `this.a` should intuitively read the class variable `a`. However, today, it refers to the context variable `a`, both in the TCB and the generated code.
In this commit, the above interpolation now refers to the class field `a`.
BREAKING CHANGE: `this.foo` property reads no longer refer to template context variables. If you intended to read the template variable, do not use `this.`.
Fixes#55115
PR Close#55183
The AOT compiler now has the capability to handle component stylesheet files as
external runtime files. External runtime files are stylesheets that are not embedded
within the component code at build time. Instead a URL path is emitted within a component's
metadata. When combined with separate updates to the shared style host and DOM renderer,
this will allow these stylesheet files to be fetched and processed by a development
server on-demand. This behavior is controlled by an internal compiler option `externalRuntimeStyles`.
The Angular CLI development server will also be updated to provide the serving functionality
once this capability is enabled. This capability enables upcoming features such as automatic
component style hot module replacement (HMR) and development server deferred stylesheet processing.
The current implementation does not affect the behavior of inline styles. Only the
behavior of stylesheet files referenced via component properties `styleUrl`/`styleUrls`
and relative template `link` elements are changed by enabling the internal option.
PR Close#57613
Adds the new `ɵɵreplaceMedata` function that can be used to replace the metadata of a component class and re-render all instances in place without refreshing the page. The function isn't used anywhere at the moment, but it will be necessary for future functionality.
PR Close#57953
Finalizes compiler implementation of the new `hydrate` triggers by:
* Reworking the logic that was depending on the `hydrateSpan` to distinguish hydrate triggers from non-hydrate triggers.
* Fixing that the `hydrate when` trigger didn't have a `hydrateSpan`.
* Adding an error if a parameter is passed into a `hydrate` trigger.
* Add an error if other `hydrate` triggers are used with `hydrate never`.
* Replacing the `prefetch` and `hydrate` flags in the template pipeline with a `modifiers` field.
* Fixing an error that was being thrown when reifying `hydrate` triggers in the pipeline.
* Adding quick info support for the `hydrate` keyword in the language service.
* Adding some tests for the new logic.
PR Close#57831
For component stylesheet hot module replacement scenarios, it will be necessarily to directly
encapsulate a component's stylesheet in a single operation. This currently requires the
consumer of the `encapsulateStyle` helper to use the internal Angular attribute values combined
with a find/replace over the entire stylesheet. To avoid both of these, the helper function now
has an optional second parameter which allows direct and full encapsulation of a style for a given
component when the component identifier is known.
PR Close#57809
Currently several parsing errors in the new control flow (e.g. missing `track` expression) produce errors whose span targets the entire block. This can be really noisy in the IDE where the error can span many lines in the template.
These changes switch to highlighting just the start of the block.
PR Close#57711
This commit updates a directive mock instance to include an extra field that a compiler code was expecting, which caused issues while processing elements with local refs and exported directives.
PR Close#57537
When disabling `i18nPreserveSignificantWhitespaceForLegacyExtraction` I was looking at a test case with ICU messages containing leading and trailing whitespace:
```angular
<div i18n>
{apples, plural, =other {I have many apples.}}
</div>
```
This would historically generate two messages:
```javascript
const MSG_TMP = goog.getMsg('{apples, plural, =other {I have many apples.}}');
const MSG_FOO = goog.getMsg(' {$ICU} ', { 'ICU': MSG_TMP });
```
But I found that I was getting just one message:
```javascript
const MSG_TMP = goog.getMsg(' {apples, plural, =other {I have many apples.}} ');
```
This is arguably an improvement, but changed the messages and message IDs, which isn't desirable with this option. I eventually traced this back to the `isIcu` initialization in [`i18n_parser.ts`](/packages/compiler/src/i18n/i18n_parser.ts):
```typescript
const context: I18nMessageVisitorContext = {
isIcu: nodes.length == 1 && nodes[0] instanceof html.Expansion,
// ...
};
```
[`_I18nVisitor.prototype.visitExpansion`](/packages/compiler/src/i18n/i18n_parser.ts) uses this to decide whether or not to generate a sub-message for a given ICU expansion:
```typescript
if (context.isIcu || context.icuDepth > 0) {
// Returns an ICU node when:
// - the message (vs a part of the message) is an ICU message, or
// - the ICU message is nested.
const expPh = context.placeholderRegistry.getUniquePlaceholder(`VAR_${icu.type}`);
i18nIcu.expressionPlaceholder = expPh;
context.placeholderToContent[expPh] = {
text: icu.switchValue,
sourceSpan: icu.switchValueSourceSpan,
};
return context.visitNodeFn(icu, i18nIcu);
}
// Else returns a placeholder
// ICU placeholders should not be replaced with their original content but with the their
// translations.
// TODO(vicb): add a html.Node -> i18n.Message cache to avoid having to re-create the msg
const phName = context.placeholderRegistry.getPlaceholderName('ICU', icu.sourceSpan.toString());
context.placeholderToMessage[phName] = this.toI18nMessage([icu], '', '', '', undefined);
const node = new i18n.IcuPlaceholder(i18nIcu, phName, icu.sourceSpan);
return context.visitNodeFn(icu, node);
```
Note that `isIcu` is the key condition between these two cases and depends on whether or not the ICU expansion has any siblings. The introduction of `WhitespaceVisitor` to `I18nMetaVisitor` trims insignificant whitespace, including empty text nodes not adjacent to an ICU expansion (from [`WhitespaceVisitor.prototype.visitText`](/packages/compiler/src/ml_parser/html_whitespaces.ts)):
```typescript
const isNotBlank = text.value.match(NO_WS_REGEXP);
const hasExpansionSibling =
context && (context.prev instanceof html.Expansion || context.next instanceof html.Expansion);
if (isNotBlank || hasExpansionSibling) {
// Transform node by trimming it...
return trimmedNode;
}
return null; // Drop node which is empty and has no ICU expansion sibling.
```
`hasExpansionSibling` was intended to retain empty text nodes leading or trailing an ICU expansion, however `context` was `undefined`, so this check failed and the leading / trailing text nodes were dropped. This resulted in trimming the ICU text by dropping the leading / trailing whitespace nodes. Having only a single ICU expansion with no leading / trailing text nodes caused `_I18nVisitor` to initialize `isIcu` incorrectly and caused it to generate one message instead of two.
`WhitespaceVisitor` is supposed to get this context from `visitAllWithSiblings`. So the fix here is to make sure `WhitespaceVisitor` is always visited via this function which provides the required context. I updated all usage sites to make sure this context is use consistently and implemented the `WhitespaceVisitor.prototype.visit` method to throw when the context is missing to make sure we don't encounter a similar mistake in the future.
Unfortunately this broke one compliance test. Specifically the [`icu_logic/icu_only.js`](/home/douglasparker/Source/ng/packages/compiler-cli/test/compliance/test_cases/r3_view_compiler_i18n/icu_logic/icu_only.js) test which changed from generating:
```javascript
function MyComponent_Template(rf, ctx) {
if (rf & 1) {
i0.ɵɵi18n(0, 0);
}
// ...
}
```
To now generating:
```javascript
function MyComponent_Template(rf, ctx) {
if (rf & 1) {
i0.ɵɵtext(0, " ");
i0.ɵɵi18n(1, 0);
i0.ɵɵtext(2, "\n");
}
// ...
}
```
This test uses the default value `preserveWhitespaces: false` (`i18nPreserveSignificantWhitespaceForLegacyExtraction` should not affect compiled JS output, we already retain significant whitespace there). So what this indicates to me is that ICU logic is already broken because it's not preserving significant whitespace in this case. My change is probably a bug fix, but one which would affect the compiled runtime, which is not in scope here. The root cause is because using `visitAllWithSiblings` everywhere means the context is retained correctly in this case and the whitespace is leading/trailing an ICU message, therefore it is retained per the logic of `WhitespaceVisitor.prototype.visitText` I mentioned eariler.
To address this, I left one usage of `WhitespaceVisitor` using `html.visitAll` instead of `visitAllWithSiblings` to retain this bug. I has to lossen the assertion I put in `WhitespaceVisitor.prototype.visit` to make this possible, but it should still throw by default when misused, which is the important part.
PR Close#56507
This configures whether or not to preserve whitespace content when extracting messages from Angular templates in the legacy (View Engine) extraction pipeline.
This includes several bug fixes which unfortunately cannot be landed without changing message IDs in a breaking fashion and are necessary to properly trim whitespace. Instead these bug fixes are included only when the new flag is disabled.
PR Close#56507
This commit adds an internal util method that allows to detect:
* which selectors are matching nodes in a template
* which pipes are present in a template
Both directives and pipes are split into 2 buckets: eagerly used and the ones that might potentially be defer-loaded.
PR Close#57466
Currently we use some short variable names like `t` and `r` in the generated factory functions. They can conflict with local symbols with the same names, if they're used for DI.
These changes rename the parameters to reduce the change for conflicts.
Fixes#57168.
PR Close#57181
Currently we use some short variable names like `t` and `r` in the generated factory functions. They can conflict with local symbols with the same names, if they're used for DI.
These changes add a `ɵ` to the generated variables to reduce the chance of conflicts.
Fixes#57168.
PR Close#57181
Some Angular template instructions that follow each other may be chained
together in a single expressions statement, containing a deeply nested
AST of call expressions. The number of chained instructions wasn't previously
limited, so this could result in very deep ASTs that cause stack overflow
errors during TypeScript emit.
This commit introduces a limit to the number of chained instructions to
avoid these problems.
Closes#57066
PR Close#57069
Fixes that the runtime implementation of `ɵɵngDeclareDirective` was interpreting the `hostDirectives` mapping incorrectly. Instead of treating the inputs/outputs as `['binding', 'alias']` arrays, it was parsing them as `['binding: alias']`. This was leading to runtime errors if a user is consuming a partially-compiled library in JIT mode.
Fixes#54096.
PR Close#57002
Replace loose equality (==) with strict equality (===) for the 'code' variable.
This change ensures type safety and prevents unintended type coercion.
PR Close#56944
It is valid CSS to list keyframe names in an animation declaration only
separating the names with a comma and no whitespace. This is typical of
production builds. Updated a couple of regexes and added a couple of
tests to account for this scenario.
Fixes#53038
PR Close#56800
Currently the logic that maps a name to a variable looks at the variables in their definition order. This means that `@let` declarations from parent views will always come before local ones, because the local ones are declared inline whereas the parent ones are hoisted to the top of the function.
These changes resolve the issue by giving precedence to the local variables.
Fixes#56737.
PR Close#56752
Enables the new `@let` syntax by default.
`@let` declarations are defined as:
1. The `@let` keyword.
2. Followed by one or more whitespaces.
3. Followed by a valid JavaScript name and zero or more whitespaces.
4. Followed by the `=` symbol and zero or more whitespaces.
5. Followed by an Angular expression which can be multi-line.
6. Terminated by the `;` symbol.
Example usage:
```
@let user = user$ | async;
@let greeting = user ? 'Hello, ' + user.name : 'Loading';
<h1>{{greeting}}</h1>
```
Fixes#15280.
PR Close#56715
Adds the implementation of the following new instructions:
* `declareLet` - creation-time instruction that initializes the slot for a let declaration.
* `storeLet` - update-time instruction that stores the current value of a let declaration.
* `readContextLet` - instruction that reads the stored value of a let declaration from a different view.
On top of the instructions, it also introduces a new `LetDeclaration` TNode type.
The new TNode is nececessary for DI to work correctly in pipes inside the let expression,
as well as for proper hydration support.
PR Close#56527
These changes integrate let declarations into the template pipeline. This involves a few operations:
* Producing a `declareLet` instruction call at creation time to initialize the declaration.
* Producing a `storeLet` instruction call in the place of the let declaration, including the necessary `advance` calls beforehand.
* For let declarations used within their declaration view, moving the `const` to be placed right after the `storeLet` call to ensure the their value has been computed.
* For let declarations that are _only_ used in their declaration view, removing the `storeLet` call and inlining the expression into the constant statement.
PR Close#56299
Whenever we parse object property assignment shorthands in expression
ASTs, the AST will have no information about whether the property read
for the `LiteralMap` is built based on the shorthand or not.
Exposing this information in the AST is useful for migrations as those
might need to decompose the shorthand into its longer form to e.g.
invoke a signal read.
PR Close#56405
Integrates let declarations into the template type checker by producing corresponding constants in the TCB.
This also includes a couple of custom diagnostics to flag usages of let before they're declared and illegal writes to let declarations. We can't rely on TS for these checks, because it includes the variable name in the diagnostic.
PR Close#56199
Introduces a new `LetDeclaration` into the Render3 AST, simiarly to the HTML AST, and adds an initial integration into the various visitors.
PR Close#55848
Currently we optimize methods that pass both `$index` and the item into a method. We can take this a step further by also optimizing calls that only pass `$index` into the first parameter.
PR Close#55872
Since we aren't using clang anymore, we can remove the comments and the workarounds that were in place to prevent it from doing the wrong thing.
PR Close#55750
Currently the variable optimization phase happens somewhat late in the process which is okay since the variables are generally static (e.g. `reference()` instruction calls). In some upcoming work we'll have variables that consume slots and require `advance` instructions. To allow for them to be optimized correctly, we need to move the variable optimization phase earlier, at least before we allocate the slots.
PR Close#55771
Previously, multiline selectors were being converted into single lines, resulting in sourcemap disruptions due to shifts in line numbers.
Closes#55508
PR Close#55509
Fixes that we didn't have the MathML elements in the schema. Note that we can't discover which tag names are available by looking at globally-available classes, because all MathML elements are `MathMLElement` rather than something like `SVGCircleElement`. As such, I ended up having to hardcode the currently-available tags.
Fixes#55608.
PR Close#55631
Currently fallback content for `ng-content` gets declared and rendered out in one go. This breaks down if multiple instances of the same component are used where one doesn't render the fallback content while the other one does, because the `TNode` for the content has to be created during the first creation pass.
These changes resolve the issue by always _declaring_ the template, but only rendering it if the slot is empty.
Fixes#55466.
PR Close#55478
Two-way bindings are meant to represent a property binding to an input and an event binding to an output, e.g. `[(ngModel)]="foo"` represents `[ngModel]="foo" (ngModelChange)="foo = $event"`. Previously due to a quirk in the template parser, we accidentally supported unassignable expressions in two-way bindings.
In #54154 the quirk was fixed, but we kept support or some common expression because of internal usages. Now the internal usages have been cleaned up so the backwards-compatibility code can be deleted.
Externally a migration was added in #54630 that will automatically fix any places that depended on the old behavior.
BREAKING CHANGE:
Angular only supports writable expressions inside of two-way bindings.
PR Close#55342
Previously the input flags were being generated as a reference to an enum member for better readability and under the assumption that minifiers would inline the values. That doesn't appear to be the case so these changes switch to using the literal values instead.
PR Close#55215
This reverts commit 367b3ee6e9.
The search element is not a void element but existing components may use
the same selector and be used as a void element.
PR Close#55127
Adds logic to ingest the content of an `ng-content` element in the template type checker. We treat `ng-content` as a `ScopedNode`, because its content is inserted conditionally.
PR Close#54854
Based on some internal feedback, these changes add validations to prevent cases where the `@for` loop variable name is the same as one of the built-in context variables, or when one of the context variables is aliased to the same name as the item.
PR Close#55045
Builds on top of the previous changes to add support for deferred blocks during partial compilation. To do this, the following changes had to be made:
* The metadata passed into `ɵɵngDeclareComponent` has an additional field called `deferBlockDependencies` which has an array of the dependency loading functions for each defer block in the template. During linking, the dependency functions are loaded by matching their template index to the index in the `deferBlockDependencies` array.
* There's a new `ɵɵngDeclareClassMetadataAsync` function that is created for components that have deferred dependencies. It gets transpiled to `setClassMetadataAsync` and works in the same way by capturing a dependency loading function and setting the metadata after the dependencies are resolved. It also has some extra fields for capturing the version which are standard in linker-generated code.
* Deferred import statements are now stripped in partial compilation mode, similar to full compilation.
PR Close#54908
Adds the `ɵɵngDeclareClassMetadataAsync` function that will be produced during partial compilation for component classes that have deferred dependencies. At runtime the dependencies will be resolved before setting the metadata.
PR Close#54908
Updates the type of the resolver function to be any `Expression` since JIT may receive a function reference rather than a `ArrowFunctionExpr`.
PR Close#54908
Switches to tracking the deferred blocks in a flat array in the binder to ensure that their template order is maintained. This will be relevant in the next commits where we'll match deferred blocks by their index.
Note that the current map we have technically guarantees the insertion order in the spec, but the array is a bit more explicit.
PR Close#54908
Previously only the first branch of an `if` block was captured for content projection. This was done because of some planned refactors in the future. Since we've decided not to apply those refactors to conditionals, these changes update the compiler to capture each branch individually for content projection purposes.
PR Close#54921
Currently when aliasing a `for` loop variable with `let`, we replace the variable's old name with the new one. Since users have found this to be confusing, these changes switch to a model where the variable is available both under the original name and the new one.
Fixes#52528.
PR Close#54942
Previously we assumed that if a `for` loop tracking function is in the form of `someMethod($index, $item)`, it will be pure so we didn't pass the parameter to bind the context to it. This appears to be risky, because we don't know if the method is trying to access `this`.
These changes play it safe by always binding method-based tracking functions.
Fixes#53628.
PR Close#54960
Moves the logic that creates the defer resolver function into `@angular/compiler` for consistency with the rest of the compilation APIs. Also renames some of the symbols to make it clearer what they're used for.
PR Close#54759
Currently we have the `deferrableDeclToImportDecl`, `deferBlocks`, `deferrableTypes` and `deferBlockDepsEmitMode` fields on the `R3ComponentMetadata` which is incorrect, because the interface is used both for JIT and AOT mode even though the information for those fields is AOT-specific. It will be problematic for partial compilation since the runtime will have a reference to the dependency loading function, but will not be able to provide any of the other information.
These changes make the following refactors:
1. It changes the defer-related information in `R3ComponentMetadata` to include only references to dependency functions which can be provided both in JIT and AOT.
2. Moves the AOT-specific defer analysis into the `ComponentResolutionData`.
3. Moves the construction the defer dependency function into the compilation phase of the `ComponentDecoratorHandler`.
4. Drops support for defer blocks from the `TemplateDefinitionBuilder`. This allows us to clean up some TDB-specific code and shouldn't have an effect on users since the TDB isn't used anymore.
PR Close#54759
Updates the instruction generation for two-way bindings to only emit the `twoWayBindingSet` call when writing to template variables. Since template variables are constants, it's only allowed to write to them when they're signals. Non-signal values are flagged during template type checking.
Fixes#54670.
PR Close#54714
`TemplateDefinitionBuilder` is the legacy template compiler, and was replaced by Template Pipeline as the default in v17.3.
This PR attempts to delete `TemplateDefinitionBuilder`, `ExpressionConverter`, and various helpers (i18n context, style builder, property visitors, etc).
Consider this a first pass: a lot of code has not yet been deleted (e.g. old TDB-specific test cases), and I'm sure I have missed additional helper code.
PR Close#54757
Currently we have the `deferrableDeclToImportDecl`, `deferBlocks`, `deferrableTypes` and `deferBlockDepsEmitMode` fields on the `R3ComponentMetadata` which is incorrect, because the interface is used both for JIT and AOT mode even though the information for those fields is AOT-specific. It will be problematic for partial compilation since the runtime will have a reference to the dependency loading function, but will not be able to provide any of the other information.
These changes make the following refactors:
1. It changes the defer-related information in `R3ComponentMetadata` to include only references to dependency functions which can be provided both in JIT and AOT.
2. Moves the AOT-specific defer analysis into the `ComponentResolutionData`.
3. Moves the construction the defer dependency function into the compilation phase of the `ComponentDecoratorHandler`.
4. Drops support for defer blocks from the `TemplateDefinitionBuilder`. This allows us to clean up some TDB-specific code and shouldn't have an effect on users since the TDB isn't used anymore.
PR Close#54700
The following changes help the language service code build in g3:
* `Omit<T>` produces an index signature, so we must access the resulting properties with square bracket (because `noPropertyAccessFromIndexSignature` is on in g3).
* Explicitly export `absoluteFrom` from `packages/compiler-cli/index.ts`, since the `*` re-export is patched out in g3.
* Remove const from a few const enums, since accessing const enums across modules is not compatible with `isolatedModules` (which is on in g3).
PR Close#54726
Previously, the language service relied on deep imports such as `@angular/compiler/render3/...`. This is bad form, because that creates a dependency on the package's internal structure. Additionally, this is not compatible with google3.
In this PR, I replace all the deep imports with shallow imports, in some cases adding the missing symbol to the `compiler.ts` exports.
PR Close#54695
Template pipeline is now the default template compiler.
A pair of source map tests is failing, related to DI in JIT mode; I will fix and re-enable these during the preview period.
PR Close#54571
This is based on an internal issue report.
An earlier change introduced a diagnostic to report cases where a symbol is in the `deferredImports` array, but is used eagerly. The check worked by looking through the deferred blocks in a scope, resolving the scope for each and checking if the element is within the scope. The problem is that resolving the scope won't work across scoped node boundaries. For example, if there's a control flow statement around the block or within the block but around the deferred dependency, it won't be able to resolve the scope since it isn't a direct child, e.g.
```
@if (true) {
@defer {
<deferred-dep/>
}
}
```
To fix this the case where the deferred block is inside a scoped node, I've changed the `R3BoundTarget.deferBlocks` to be a `Map` holding both the deferred block and its corresponding scope. Then to resolve the case where the dependency is within a scoped node inside the deferred block, I've added a depth-first traversal through the scopes within the deferred block.
PR Close#54499
This change allows template binding "inert" attribute with the following syntax: [inert]="isInert"
Fixes#51879
fixup! fix(compiler): adding the inert property to the "SCHEMA" array
revert: "fixup! fix(compiler): adding the inert property to the "SCHEMA" array"
This reverts commit b637b7ce646e8bab2f585339028a84018e8ea982.
This commit is being reverted because the inert property is safe as a boolean attribute
PR Close#53148
Fixes that `ɵunwrapWritableSignal` inferring getter functions as not matching the interface of `WritableSignal` instead of preserving them.
PR Close#54252
In a previous commit the TCB was changed to cast the assignment to an input in order to widen its type to allow `WritableSignal`. This ended up breaking existing inputs whose setter has a wider type than its getter. These changes switch to unwrapping the value on the binding side.
PR Close#54252
Reworks the TCB for two-way bindings to make them simpler and to avoid regressions for two-way bindings to generic inputs. The new TCB looks as follows:
```
var _t1: Dir;
var _t2 = _t1.input;
(_t1 as typeof _t2 | WritableSignal<typeof _t2>) = expression;
```
PR Close#54252
Currently, when two components are named `TestComponent`, and both would
use e.g. control flow. Templates would be generated by the compiler and
those would conflict at runtime because the names for the template
functions are not ensured to be unique.
This seems like a more general problem that could be tackled in the
future in the template pipeline by always using the `ConstantPool`, but
for now, we should be good already, given us ensuring the `baseName`'s are
always unique.
PR Close#54273
Consider the following very quirky Angular template, which has both an i18n attribute binding and a property binding to `in`:
```
<cmp [in]="foo" in="bar" i18n-in />
```
What would you expect the above template to do? `TemplateDefinitionBuilder` will emit the following Ivy instructions:
```
// Element constant attributes
consts: () => {
__i18nMsg__('bar', [], {}, {})
return [["in", i18n_0, __AttributeMarker.I18n__, "in"]];
}
// ...
function MyComponent_Template(rf, ctx) {
if (rf & 1) {
// Create mode
i0.ɵɵelement(0, "cmp", 0);
}
}
```
This makes some sense -- we create a single element, and attach an i18n message to the `in` attribute. But is this actually correct? Notice that the property binding is completely missing!
Indeed, Template Pipeline actually produces this code:
```
// Element constant attributes
consts: () => {
__i18nMsg__('bar', [], {}, {})
return [["in", i18n_0, __AttributeMarker.I18n__, "in"]];
}
// ...
function MyComponent_Template(rf, ctx) {
if (rf & 1) {
// Create mode
i0.ɵɵelement(0, "cmp", 0);
} else if (rf & 2) {
// Update mode
i0.ɵɵproperty("in", ctx.foo);
}
}
```
Aha! There's the property binding! Arguably, this is a bug in `TemplateDefinitionBuilder`, but after some discussion on Slack, we have decided to ban this practice in a future Angular version.
For now, we allow Template Pipeline to have slightly different output, but print an error to warn the user of the issue.
PR Close#54063
Fixes that `@defer` blocks weren't recognizing default imports and generating the proper code for them. Default symbols need to be accessed through the `default` property in the `import` statement, rather than by their name.
PR Close#53695
One of the earlier commits separated one-way and two-way bindings which ended up breaking some internal targets, because it changed the assignment order. These changes bring back the old order.
PR Close#54154
In one of the earlier commits, the logic that appends `=$event` before parsing two-way bindings was removed and some validation was added to prevent unassignable expressions from being used. This ended up being problematic, because previously the parser was incorrectly allowing some invalid expressions which users came to depend on. For example, it transformed `[(value)]="a && a.b"` to `a && (a.b = $event)`.
These changes add some special cases for the common breakages that came up during the TGP.
PR Close#54154
Updates the template definition builder to emit the new format for the listener side of two-way bindings.
```js
// Before
listener("ngModelChange", function($event) {
return ctx.name = $event;
});
// After
ɵɵtwoWayListener("ngModelChange", function($event) {
ɵɵtwoWayBindingSet(ctx.name, $event) || (ctx.name = $event);
return $event;
});
```
PR Close#54154
Currently the listener side two-way listeners are parsed by appending `=$event` to the raw expression. This is problematic, because:
1. It can interfere with other expressions (see #37809).
2. It can lead to confusing error messages because users will see code that they didn't write.
3. It doesn't allow us to further manipulate the expression.
These changes remove the logic that appends `=$event` to resolve the issue. There's also some new logic that checks the expression after it has been parsed to ensure that the result is an assignable expression.
Subsequent commits will update the code that emits the expression to add back the `$event` assignment where it's needed.
PR Close#54154
Adds the following new instructions:
* `twoWayBindingSet` - used to assign values inside of the listener side of a two-way binding. Currently a noop, but will come into play later.
* `twoWayListener` - used to bind a two-way listener. Currently calls directly into `listener`, but it may be useful in the future.
PR Close#54154
Currently all the members of `_ParseAST` are public, even though they're all used only within the class. This change marks them as private so that it's explicit which ones are intended to be used outside the class.
PR Close#54154
Reworks the compiler so that it generates a `twoWayProperty` instruction, instead of `property`, for the property side of a two-way binding. Currently the new instruction passes through to `property`, but it'll have some two-way-binding-specific logic in subsequent PRs.
PR Close#54154
During the template parsing stage two-way bindings are split up into a property and event binding. All the downstream code treats these binding the same as their one-way equivalents. For some future work we'll have to distinguish between the two so these changes update the `BoundElementProperty.type` and `ParsedEvent.type` to include a `TwoWay` type. All existing call-sites have been updated to treat `TwoWay` the same as `Property`/`Regular`, but more specialized logic will be added in the future.
PR Close#54065
Previously, defer deps fns names were only prefixed with the component name, meaning that distinct deps fns in the same component would produce a name collision. Now, we take into account the entire template function name when naming inner deps fns.
PR Close#54060
The Template Pipeline is a brand new backend for the Angular compiler, replacing `TemplateDefinitionBuilder`. It generates the Ivy instructions corresponding to an input template (or host binding). The Template Pipeline has an all-new design based on an intermediate representation compiled over many phases, which will allow us to experiment with compiler changes more easily in the future.
With this commit, the template pipeline can now be enabled in any project via the `useTemplatePipeline` TSConfig option. However, it is still disabled by default.
PR Close#54057
In #53591, Andrew added local compliation support for defer blocks. However, this requires the ability to emit pre-generated static defer deps functions. We now also support that feature in Template Pipeline.
PR Close#54043
Similar to signal-based inputs, we support signal-based queries in JIT
by expecting a decorator to be added. This is a consequence of the
design, given that JIT requires query declaration information before
the class is initialized- but ironically there is no way to collect this
information without instantiating the class.
A JIT transform in the Angular CLI will automatically generate these
decorators for testing.
PR Close#54019
Collapses multiple sibling query advance statements into single
query advance invocations. This will help reducing generated code
for directives/components with many queries.
PR Close#54019
Previously, if an ICU was inside a nested i18n root, it would use the nested root to calculate whether it should be applied. Now, we use the root i18n block.
PR Close#54026
This commit ensures that libraries can use signal-based queries, and the
partial compilation output will capture their metadata.
The linker is updated to support parsing this.
Two notes:
1. Older linker versions are not capable of parsing this, so the minimum
version for signal-based queries is adjusted when such are used.
2. We only emit `isSignal` metadata for queries when signal queries are
used. This enables libraries to continue supporting older linker
versions, if signal-based queries are not used.
PR Close#53978
This commit uses the initializer API recognition that we built for
signal-based inputs, and teaches the compiler to recognize class members
that refer to `viewChild`, `viewChildren`, `contentChild` or
`contentChildren`. Those will declare signal-based view or content queries.
PR Close#53978
This commit introduces the compiler output generation for signal-based
queries. Signal-based queries will have new creation-mode instructions
and update instructions to advance the current query indices in the
global shared context.
An output like the following is the expected output for signal-based
queries:
```
i0.ɵɵdefineComponent({
viewQuery: function App_Query(rf, ctx) {
if (rf & 1) {
i0.ɵɵviewQuery(ctx.d, _c0, 5);
i0.ɵɵviewQuerySignal(ctx.ds1, _c0, 5);
i0.ɵɵviewQuerySignal(ctx.ds2, _c0, 5);
}
if (rf & 2) {
let _t;
// only change-detected queries need explicit refresh
i0.ɵɵqueryRefresh(_t = i0.ɵɵloadQuery()) && (ctx.d = _t.first);
// we bump up current query index by 2 positions since there are 2 signal-based queries
i0.ɵɵqueryAdvance(2);
}
…
},
…
});
```
Note: For now, the collapsing of multiple advance instructions is not
implemented. This will be a follow-up.
Note 2: A couple of query helpers are now in their own file. This makes
it easier to focus on query-specific compiler code. The new function is
called `createQueryCreateCall`, which is a modified variant of the
existing function that previously only generated query parameters.
PR Close#53978
This commit adds extra logic to produce a diagnostic in case `@Component.deferredImports` contain types from imports that also bring eager symbols. This would result in retaining a regular import and generating a dynamic import, which would not allow to defer-load dependencies.
PR Close#53899
This commit updates the logic of the `TemplateDefinitionBuilder` to support local compilation and generate a single dependency function for all explicitly deferred deps within a component.
PR Close#53591
As part of testing we did accidentally use `bitwiseAnd` for the input
flags, given we started without an extra flag for `HasTransform`.
This commit teaches the compiler to support emitting bitwise OR
and uses it when combining input flags, fully re-enabling transforms
for signal components after the new flag mechanism was introduced in
previous commits.
PR Close#53808
This commit changes the `HasTransform` flag to be only concerned with
decorator inputs. This allows us to automatically detect signal input
transforms without reliance on the flag, resulting in less complexity in
the compiler (as outlined in the design doc) and various other places,
while it also allows us to simplify JIT support for signal inputs
because there would be no need to capture the "hasTransform" state in
the decorator so that JIT can generate the according input flags.
`isSignal` will still persist as an input flag to allow for monomorphic
and highly efficient distinguishing at runtime, whether an input is
signal based or not. JIT transform will also need to propagate this
information to the runtime somehow.
PR Close#53808
We are adding internal support for declaring signal inputs via the
`@Input` decorator. This is needed for JIT unit testing, or JIT
applications.
In JIT, Angular is not able to recognize signal inputs due to the
lack of static reflection metadata. Decorators attach their information
on the class- without it needing to be instantiated. This allows Angular
to know inputs when preparing/generating the directive definition. With
signal inputs this is not possible- so we need a way to tell Angular
about inputs for JIT applications. We've decided that this is not
something users should have to deal with, so a transform will be added
in a follow-up that will automatically derive/and add the decorators
for signal inputs when requested in JIT environments.
PR Close#53808
We generate `advance` instructions before most update instructions and the majority of `advance` calls are advancing by one. We can save some bytes for the most common case by omitting the parameter for `advance(1)` altogether.
PR Close#53845
Instead of computing the bit input flags at compile-time and inling
the final bit flag number, we will use the `InputFlags` enum directly.
This is a little more code in the compiler side, but will allow us to
have better debuggable development code, and also prevents problems
where runtime flag bitmasks differ from the compiler flag bitmasks.
This is in practice a noop for optimized applications as the enum values
would be inlined anyway. This matches existing compiler emit for e.g.
change detection strategy, or view encapsulation enums.
PR Close#53571
This commit introduces a new enum for capturing additional metadata
about inputs. Called `InputFlags`. These will be built up at compile
time and then propagated into the runtime logic, in a way that does
not require additional lookup dictionaries data structures, or
additional memory allocations for "common inputs" that do not have any flags.
The flags will incorporate information on whether an input is signal
based. This can then be used to avoid megamorphic accesses when such
input is set- as we'd not need to check the input field value. This also
avoids cases where an input signal may be used as initial value for an
input (as we'd not incorrectly detect the input as a signal input then).
The new metadata emit will be useful for incorporating additional
metadata for inputs, such as whether they are required etc (although
required inputs are a build-time only construct right now- but this is a
good illustration of why input flags can be useful). An alternative
could have been to have an additional boolean entry for signal inputs,
but allocating a number with more flexible input flags seems more future
proof and more reasonable andreadable.
More information on the megamorphic access when updating an input
signal
https://docs.google.com/document/d/1FpnFruviKb6BFTQfMAP2AMEqEB0FI7z-3mT_qm7lzX8/edit.
PR Close#53571
In #52931, Kristiyan fixed a TemplateDefinitionBuilder bug in which derived alias variables in for loops (`$even`, `$first`, etc) were referring to the wrong level of nested `@for` block. (These variables are unique because they become inlined expressions, and are not "real" context variables.) He fixed this by appending level information to the generated alias name.
Template Pipeline actually suffered from the same bug. We fix it in a very similar way -- in particular, whenever these derived context variables are used, we make them depend on versions of `$index` and `$count` that have been suffixed with the xref of the enclosing repeater.
I have added a few more pipeline goldens, because we are not quite as clever as TDB about only generating the duplicate suffixed index and count variables when inside nested loops. This is fine, since in the long run, we want to refactor it more fundamentally.
I have also added a TODO to fix this more rigorously. In particular, it would be nice if we had proper support for shadowed variables, as well as unlimited levels of variables depending on one another.
PR Close#53662
Template pipeline previously mangled CSS property names like
`--camelCase` when used in host style bindings. Note: It still *does*
mangle these names in static style attrs, both in host bindings and on
elements. This is clearly wrong, but is consistent with what TDB does
today.
PR Close#53665
It's possible for attributes to have a namespace, we need to handle this
possiblity for both attribute instructions and attributes extracted to
the consts array.
PR Close#53646
The way we were handling ICU placeholders was not compatible with using
interpolations on attributes of elements inside the ICU. This change
refactors the handling of ICU placeholders and unifies the way
expression and tag placeholders work inside ICUs.
The new approach modifies the ingest logic to add the placeholder on to
the TextOp rather than the TextInterpolationOp. This is because, in
ICUs, we may need multiple i18n expressions created from the
interpolation expressions to roll up into the same placeholder. ICUs
essentially do the interpolation at compile time, combining the static
strings with special placeholder strings that represent the expression
values.
PR Close#53643
Consider a case when an explicit `this` read is inside a template with a context that also provides the variable name being read:
```
<ng-template let-a>{{this.a}}</ng-template>
```
Clearly, `this.a` should refer to the class property `a`. However, in today's Angular, `this.a` will refer to `let-a` on the template context.
Amazingly, both TemplateDefinitionBuilder and the Typecheck block have the same bug, and are consistent with each other! This is because `ImplicitReceiver` extends `ThisReceiver` in the parser AST, which is an insane gotcha.
In this commit, I patch the template pipeline to emulate this behavior as well.
To actually fix this nastiness, we have to:
- Update `ingest.ts` in the Template Pipeline (see the corresponding comment)
- Check `type_check_block.ts` in the Typecheck block code (see the corresponding comment)
- Turn off legacy TemplateDefinitionBuilder
- Fix g3, and release in a major version
PR Close#53594
`ng-content` elements, and thus their corresponding projection instructions, can have many attributes on them. Some of these attributes may result in special behavior. For example, `ngProjectAs` and `i18n-foo` both result in special const collection, into the approprate BindingKind slot in the const array. Additionally, `i18n-foo` needs to recieve all the additional i18n attribute processing.
We solve this by subjecting `ng-content` attributes to all the same pipeline logic that applies to attributes on elements, and then allow the element const collection phase to collect them.
PR Close#53594
For regular templates, any listener will have its name const collected into the bindings section of the element consts.
In contrast, host bindings omit listener names from their hostAttrs. This is a strange and inconsistent behavior, so we hide it behind a compatiblity mode flag.
PR Close#53594
We has some special behavior for naming identifiers in Template Pipline, for the sake of compatibility with TDB's source maps tests. However, this has the potential to cause a variable name collision in a particular special case (when the identifier is `ctx`). We add a special check for this, and also tuck all the backwards-compatible naming code inside a compatibility block.
PR Close#53594
It's possible for the user to create a host attrbiute binding with a
name that makes it _look_ like a class binding `{['class.foo']: ''}`, we
were previously treating these as actual class property bindings. This
change fixes the logic so that only true property bindings cam be
converted to class property bindings.
Note: A user who added an attribute like the above almost certainly
intended to create an actual class property binding. It would be nice if
we could add a diagnostic to warn them about this.
PR Close#53626
Further refine the template pipeline's behavior w.r.t. duplicate values
in the consts array to better align its behavior with TDB. In particular
this means allowing duplicate values for classes and styles.
PR Close#53596
Adds a test for handling of duplicate bindings. Fow now we replicate the
TDB behavior in template pipeline, which is: For style and class text
attributes, only keep the last one. For all other text attributes, add
all of the values to the consts array.
PR Close#53596
The for loop tracking function doesn't allow references to local template variables, aside from `$index` and the item which are passed in as parameters. We enforce this by rewriting all variable references to the components scope.
The problem is that the logic that rewrites the references first walks the view tree and then checks if the variable is `$index` or the item. This is problematic in nested for loops, because it'll find the `$index` of the parent.
These changes resolve the issue by checking for `$index` and the item first.
Fixes#53600.
PR Close#53604
Changes template pipeline to be less aggressive in const collecting
attrs, to match the behavior of template definition builder. There is
nothing wrong with the more aggressive const collection, and in fact it
would be good to re-enable it later, but for now this makes it easier to
transition from TDB to template pipeline.
Also adds a test to verify that sensitive iframe attributes are properly
validated.
PR Close#53580
TemplateDefinitionBuilder is apparently more careful about when it attempts to split namespaces in attribute values. However, we are doing this on style attributes, which might start with a single `:`. Rather than refactor our logic to only try to split namespaces in some cases, we can just add an option to make namespace splitting fail gracefully. We only use this option for attributes, not elements.
Note also: the compiled code for this, while "correct" is absolutely insane. Maybe we should consider fixing this, as a matter of principle.
PR Close#53574
Some elements may have multiple bindings with the same name. We should accept and emit them all, as long as they have different kinds.
Co-authored-by: Miles Malerba <mmalerba@users.noreply.github.com>
PR Close#53574
The template pipeline was previously not reserving a variable slot for the result of the `deferWhen` instruction, which caused the `defer when` feature to crash at runtime.
PR Close#53574
When an element is self-closing, it will cause an `element` instruction to be emitted (instead of `elementStart`/`elementEnd`). In that case, we should use map whole source span for the instruction, not just the starting span.
PR Close#53574
The template pipeline was producing slightly different names than TemplateDefinitionBuilder for defer deps functions. I have added a workaround in the name of backwards compatibility, to avoid suffixing the const pool function names.
PR Close#53574
Previously when we found an ICU that was the only translatable content
in its i18n block, we assigned the block's i18n context to the ICU.
However, we neglected to set the contextKind to inidcate that the
context was associated with an ICU. As of this change we now set the
correct contextKind.
This change also refactors the context creation to explicitly separate
creation of contexts for attributes, root i18n blocks, child i18n
blocks, and ICUs. This allows us to more easily ensure that contexts are
shared appropriately between i18n blocks and ICUs.
Finally, this change also refactors the i18n message extraction pahse to
simplify how contexts are converted to i18n messages. This
simplification should make it easier to merge i18n contexts and i18n
messages into a single op in a future refactor.
PR Close#53557
This commit adds the last remaining piece for signal input
type-checking. Bound values to signal inputs are already checked
properly at this point, but inference of generic directive/component
types through their inputs is not implemented.
This commit fixes this. To achieve this, there are a couple of potential
solutions. The generics of a directive are inferred based on input
value expressions using a so-called type constructor. The constructor
looks something like this:
```
const _ctor = <T>(v: Pick<Dir<T>, 'input1', 'input2'>) => Dir<T>;
_ctor({input1: expr1, input2: expr2});
```
This works very well for non-signal inputs where the class member is
directly holding the input values. For signal inputs, this does NOT
work because the class member will actually hold the `InputSignal`
instance. There are a couple of solutions to this:
1. Calling `_ctor` with an `InputSignal<typeof value>`
2. Converting the `_ctor` input signal fields to their write types
(unwrapping the input signals).
We've decided to go with the second option as TypeScript is very
sensitive with assignments and its checks. i.e. co-variance,
contravariance or bivariance. Semantically it makes more sense to unwrap
the input signal "write type" directly and "assign to it". This is safer
and conceptually also easier to follow. A type constructor continues to
only receive the "expresison values". This simplifies code as well.
It's worth noting that the unwrapping as per option 2 also comes at a
cost. We need to be able to generate imports in type constructors. This
was not possible until the previous commit because inline type constructors
did not have an associated type-check block `Environment` and we were
missing access to expression translation and correct import generation.
Overall, solution 2 is now implemented as works as expected. This commit
adds additional unit tests to ensure this.
PR Close#53521
Signal inputs do not need coercion members for their transforms. That is
because the `InputSignal` type- which is accessible in the class member-
already holds the type of potential "write values". This eliminates the
need for coercion members which were simply used to somehow capture this
write type (especially when libraries are consumed and only `.d.ts` is
available).
We can simplify this, and also significantlky loosen restrictions
of transform functions- given that we can fully rely on TypeScript for
inferring the type. There is no requirement in being able to
"transplant" the type into different places- hence also allowing
supporting transform functions with generics, or overloads.
In a follow-up commit, once more parts are place, there will be some
compliance tests to ensure these new "loosend restrictions".
PR Close#53521
This commit introduces the initial type-checking for signal inputs.
To enable type-checking od signal inputs, there are a couple of tricks
needed. It's not trivial as it would look like at first glance.
Initial attempts could have been to generate additional statements in
type-checking blocks for signal inputs to simply call a method like
`InputSignal#applyNewValue`. This would seem natural, as it would match
what will happen at runtime, but this would break the language-service
auto completion in a highly subtle way. Consider the case where multiple
directives match the same input. Consider the directives have some
overlap in accepted input values, but they also have distinct diverging
values, like:
```ts
class DirA {
value = input<'apple'|'shared'>();
}
class DirB {
value = input<'orange'|'shared'>();
}
```
In such cases, auto completion for the binding expression should suggest
the following values: `apple`, `shared`, `orange` and `undefined`.
The language service achieves this by getting completions in the
type-check block where the user expression would live. This BREAKS if
we'd have multiple places where the expression from the user is used.
Two different places, or more, surface additional problems with
diagnostic collection. Previously diagnostics would surface the union
type of allowed values, but with multiple places, we'd have to work with
potentially 1+ diagnostics. This is non-ideal.
Another important consideration is test coverage. It might sound
problematic to consider the existing test infrastructure as relevant,
but in practice, we have thousands of diagnostic type check block tests
that would greatly benefit if the general emit structure would still
match conceptually. This is another bonus argument on why changing the
way inputs are applied is probably an option we should consider as a
last resort.
Ultimately, there is a good solution where we unwrap directive signal
inputs, based on metadata, and access a brand type field on the
`InputSignal`. This ensures auto-completion continues to work as is, and
also the structure of type check blocks doesn't change conceptually. In
future commits we also need to handle type-inference for generic signal
inputs.
Note: Another alternative considered, in terms of using metadata or not.
We could have type helpers to unwrap signal inputs using type helpers
like: `T extends InputSignal<any, WriteT> ? WriteT : T`. This would
allow us to drop the input signal metadata dependency, but in reality,
this has a few issues:
- users might have `@Input`'s passing around `InputSignal`'s. This is
unlikely, but shows that the solution would not be fully correct.
- we need the metadata regardless, as we plan on accessing it at runtime
as well, to distinguish between signal inputs and normal inputs when
applying new values. This was not clear when this option was
considered initially.
PR Close#53521
This commit captures the metadata on whether an input is signal based or
not, in the `.d.ts` of directives and components. This exposes this
information to consumers of the directives. This is needed because
libraries may use signal inputs, and we need to know whether bound
inputs to this library are signal-based or not- so that we can generate
proper type-checking code (account for `InputSignal` or not).
Additionally, this commit introduces a new structure for the partial
compilation output of directive inputs. With the current emit, inputs
are captured in a data structure that is equivalent to the internal data
structure passed to `defineDirective` (the full compilation output).
This worked fine as we only captured a few strings, but in ends up
being a bad practice because partial compilation output should NOT
capture internal data structures that might be specific to a certian
Angular core version. Instead, we introduce a new "future proof"
structure that:
- can hold additional metadata in backwards-compatible ways, like
`isSignal` or `isRequired`.
- can be parsed trivially using the `AstHost` for the linker, instead of
having to unwrap/parse an array structure.
The new structure is only emitted when we discover that some inputs are
signal based (or ultimately end up configuring input flags). This is
done for backwards compatibility, so that libraries without signal
inputs remain compatible with older linker versions. In the future,
this might be the only emit.
Compliance tests for this follow in future commits, when the linker
portion is also in place. This commit specialices on the code
generation. With the linker, and compliance test infrastructure fixed
(that is broken right now), we can test the full integration.
PR Close#53521
When working on integrating a new metadata field for inputs, I realized
there are quite a lot of duplications of interfaces. Turns out, the
facade input map type can be replaced in favor of just
`R3DirectiveInput`- even improving type safety-ness of e.g. the wrapped
node expressions of transform functions.
PR Close#53521
`o.WrappedNodeExpr` can show up in some cases, when a host binding's value is inside a TS expression.
It's an open question whether we will need to support all of the TS expression types as a result.
PR Close#53478
For some reason, the parser reuses the same field to store the animation phase and the event target. We were incorrectly interpreting the presence of any value on that field as an animation phase, leading us to incorrectly emit synthetic listener instructions for listeners on events with targets. This bug is now fixes.
PR Close#53478
`$any` should be interpreted as a cast, not as a context read of a variable called `$any`. This already worked in template compilations, but the relevant phase was not enabled for host bindings.
PR Close#53478
Adds support for sanitizing host bindings. Since the tag name of the
element the host binding is being set on isn't always known, we have to
consider multiple possible security contexts.
This commit also adds additional tests to help verify correct behavior
of the sanitization logic for different edge cases.
PR Close#53513
Previously we generated an intermediate expression which was later
converted into a symbol import expression for the sanitizer function.
This commit simplifies the behavior by just generating the symbol import
from the beginning
PR Close#53473
Use the DomElementSchemaRegistry to determine the correct security
context for static attributes, and pass it along during ingestion. Then
during the resolve sanitizers phase, use the security context to
determine if a trusted value function is needed
PR Close#53473
Consider the case:
```
<button *ngIf="true" [@anim]="field"></button>
```
Only the inner `button` should recieve a `property` instruction for the animation binding. We were previously emitting one for the implicit `ng-template` as well, and collecting it into the consts for the `ng-template`. Both of these issues are now fixed.
PR Close#53457
The behavior of explicit bindings on `ng-template`s was untested, and we differed from `TemplateDefinitionBuilder` significantly. We now have much more similar behavior, although not 100% identical.
For example, consider this templarte:
```
<ng-template l="l1" [p]="p1" [attr.a]="a1" [class.c]="c1"></ng-template>
```
It's not clear what a class binding on an `ng-template` would actually do. Nonetheless, it's well-defined behavior in TemplateDefinitionBuilder, which emits `property` instructions for all three bindings, and people actually do this in google3.
Note that some of these bindings don't really make much sense, but we have to support them for compatibility purposes.
See comments for an in-depth explanation of all the logic.
Also, add a test to exercise the problematic case.
PR Close#53457
It turns out that `BindingFlags.BindingTargetsTemplate` is actally a redundant property! It will be true in either of the following cases:
1. The template is a normal non-structural `ng-template`. We already know this from `TemplateKind`.
2. The binding came from `templateAttrs` (instead of `attrs`). We have this information in `BindingFlags.IsStructuralTemplateAttribute`.
Therefore, I can just eliminate `BindingFlags.BindingTargetsTemplate`. There's no reason to keep `BindingFlags` around for a single value, so I convert `BindingFlags.IsStructuralTemplateAttribute` to a boolean parameter (with the eventual goal of eliminating it entirely).
Additionally, because element binding ingestion now calls `ir.createBindingOp` inline, it was difficult to compare it to template binding ingestion, which uses the `createTemplateBinding` helper. I have changed the parameter order of `createTemplateBinding` to closely mimic `ir.createBindingOp`. This will both make the code easier to read, and allow me to easily replace one with the other in the future.
Lastly: the template binding ingestion function is the site of much of the binding ingestion complexity. Add an explanatory function comment.
PR Close#53457
Previously, we had `ingestBindings` and `ingestBinding`, which required tons of cases to support both elements and templates.
Now, we have two separate functions, `ingestElementBindings` and `ingestTemplateBindings`.
Thanks to the previous refactoring work, `ingestBinding` is now extremely compact. In fact, it's so compact that, in the elements case, it can just be inlined! Therefore, element binding ingestion is now quite easy to read.
The template case continues to be pretty gnarly, although I have already removed some code. In subsequent commits, we will simplify it even further.
PR Close#53457
Currently Template Pipeline's ingest phase is very complex, especially when it comes to ingesting bindings.
In this commit, we make some superficial simplifications, in preparation for a larger refactoring. For example, we pull out common code such as `convertAstWithInterpolation` and the `i18n.Message` checks. This enormously shrinks the main binding ingestion functions.
In addition, we reorder the binding kind and flags code above `ingestBindings`, so that `ingestBindings` and `ingestBinding` can be viewed together.
PR Close#53457
The Template Pipeline has had a number of tricky bugs involving bindings on structural elements.
Consider this template:
```
<div *ngIf="true" [class.bar]="field"></div>
```
We were incorrectly emitting `ɵɵclassProp` on *both* the template's view, and the inner view. The solution is to just emit an extracted attribute on the enclosing template, so it still shows up in the const array, but does not affect the update block.
We will refactor binding ingestion soon, but this commit improves our correctness before any big refactor.
PR Close#53457
Phases that walk through the views by following template and repeater
ops need to remember to check the empty view as well for repeaters. This
commit adds fixes for phases that were missing it, or comments
explaining why its not handled.
PR Close#53440
@for does not use actual TemplateOps, but instead has a similar
RepeaterCreateOp. This commit adds support for this op to the relevant
i18n phases.
PR Close#53440
To support the development of component specific HMR capabilities, the build/serve
tooling may need to directly process styles to match the view encapsulation
expectations of individual components. To allow for this scenario and to avoid tooling
to need to re-implement the emulated encapsulation logic, an private API is now
available in the `@angular/compiler` package named `encapsulateStyle` that converts
a stylesheet content string to an encapsulated form. This function is not considered
part of the public API nor does it have any of its respective support or versioning guarantees.
PR Close#53363
Previously, binding ops only knew whether they applied to a structural template (and even this was actually very misleading!).
Now, binding ops have full information about what kind of template they apply to, if any (e.g. plain template, structural template, etc). Additionally, each binding knows whether it `IsStructuralTemplateAttribute`, which is a property of the binding rather than the template target.
In the future, we should refactor this to unify the various flags that can describe binding types, as well as the flags that describe template targets, into a single and comprehensive field on binding ops.
PR Close#53405
Previously, we created i18n contexts for i18n attributes in ingest. This turned out to be the wrong approach, because we don't always want to produce i18n messages for all i18n attributes! In fact, several kinds of i18n attributes on elements with structural directives should not produce their own messages.
This commit also contains related refactors to fix one such structural directives test.
PR Close#53405
When a binding is present on an element with a structural directive, that binding is parsed onto *both* the synthetic `ng-template`, as well as the inner element. However, we do not want to create different i18n messages for both bindings; we only want to generate a new i18n message for the inner, "real" element.
PR Close#53405
Listener instructions should not be inside the i18n block. In order to avoid this, we ingest bindings on an element before starting the i18n block.
We previously missed this case because almost all bindings result in *update* instructions, which don't need to be ordered relative to i18nStart/i18nEnd create instructions. However, listeners are the only kind of binding that gets ingested into the create block.
PR Close#53405
Previously, our i18n slot moving process was buggy. Specifically, it was not resilient to cases in which a create op consumed a slot, but no update ops depended on that slot.
The new algorithm fixes this issue, and is also easier to understand.
PR Close#53405
I18n expressions logically have both a target and an owner:
- For i18n text expressions, the owner is the i18nStart instruction. The target is initially the same, but later moves to be the last slot consumer in the i18n block.
- For i18n attribute expressions, the owner is the I18nAttributes config instruction, whereas the target is the ElementCreate that hosts the attribute.
This refactor makes the code clearer in quite a few plases.
Additionally, we now perform a lot of the i18n processing earlier. For example, re-targeting and re-ordering of i18n expressions happens *before* apply instructions are generated. As a result, the re-ordering logic is a lot simpler.
These changes also have consequences on i18n const collection, along with a couple other minor changes.
PR Close#53376