| Quellcodebibliothek Statistik Leitseite products/Sources/formale Sprachen/C/Firefox/js/src/jit-test/tests/decorators/ (Browser von der Mozilla Stiftung Version 136.0.1©) Datei vom 10.2.2025 mit Größe 10 kB |
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Quelle syntax.js Sprache: JAVA |
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// |jit-test| skip-if: !getBuildConfiguration("decorators") load(libdir + "asserts.js"); Reflect.parse("class c {@dec1 field = false;}"); Reflect.parse("class c {@dec1 @dec2 @dec3 field = false;}"); Reflect.parse("class c {@dec1 @dec2 @dec3('a') static field = false;}"); Reflect.parse("class c {@dec1 method() {};}"); Reflect.parse("class c {@dec1 @dec2 @dec3 method() {};}"); Reflect.parse("class c {@dec1 @dec2 @dec3 static method() {};}"); Reflect.parse("class c {@dec1 @dec2('a') @dec3 method(...args) {};}"); Reflect.parse("class c {@((a, b, c) => {}) method(a, b) {};}"); Reflect.parse("class c {@((a, b, c) => {}) @dec2('a', 'b') @dec3 method(a, b) {} Reflect.parse("@dec1 class c {}"); Reflect.parse("@dec1 @dec2 @dec3 class c {}"); Reflect.parse("@dec1('a') @(() => {}) @dec3 class c {}"); Reflect.parse("@dec1('a') @(() => {}) @dec3 class c {@((a, b, c) => {}) @dec2('a Reflect.parse("x = @dec class { #x }"); Reflect.parse("x = (class A { }, @dec class { })"); Reflect.parse("@dec1 class A extends @dec2 class B extends @dec3 class {} {} {}" Reflect.parse("class c {@dec1.dec2.dec3 method() {};}"); Reflect.parse("class c {@dec1 @dec2.dec3.dec4 @dec5 method() {};}"); Reflect.parse("class c {@dec1('a') @dec2.dec3.dec4 @dec5 method() {};}"); Reflect.parse("class c {@dec1('a') @dec2.dec3.dec4('b', 'c') @dec5 method() {};} Reflect.parse("class c {@dec1('a') @dec2.dec3.dec4('b', 'c') @dec5.dec6 method() Reflect.parse("@dec1.dec2 class c {}"); Reflect.parse("@dec1.dec2 @dec3.dec4 @dec5 class c {}"); Reflect.parse("@dec1.dec2('a') @(() => {}) @dec4 class c {}"); Reflect.parse("@dec1.dec2('a') @(() => {}) @dec4 class c {@((a, b, c) => {}) @de Reflect.parse("class c {accessor field = false;}"); Reflect.parse("class c {static accessor field = false;}"); Reflect.parse("class c {@dec1 @dec2 accessor field = false;}"); Reflect.parse("class c {@dec1 @dec2 @dec3 static accessor field = false;}"); Reflect.parse("let accessor = false;"); Reflect.parse("class accessor {accessor = false;}"); Reflect.parse("class c {accessor = false;}"); Reflect.parse("class c {accessor\n= false;}"); Reflect.parse("class c {accessor\nfield = false;}"); Reflect.parse("class C {accessor\n foo() {}}"); Reflect.parse("class c {accessor; }"); Reflect.parse("class c {accessor\nset field(a) {}}"); Reflect.parse("class c {accessor\nasync field(a) {}}"); Reflect.parse("class c {accessor\n* field(a) {}}"); Reflect.parse("{accessor, field(a)}"); Reflect.parse("class c {static accessor x = 1;}"); Reflect.parse("class c {accessor #y = 2;}"); Reflect.parse("class c {static dec1(){}; static {@c.dec1 class d{@c.dec1 field}} Reflect.parse("class c {static #dec1(){}; static {@c.#dec1 class d{@c.#dec1 fiel Reflect.parse("class c {@as field = false;}"); Reflect.parse("class c {@accessor field = false;}"); Reflect.parse("class c {@assert field = false;}"); Reflect.parse("class c {@async field = false;}"); Reflect.parse("class c {@await field = false;}"); Reflect.parse("class c {@each field = false;}"); Reflect.parse("class c {@from field = false;}"); Reflect.parse("class c {@get field = false;}"); Reflect.parse("class c {@meta field = false;}"); Reflect.parse("class c {@of field = false;}"); Reflect.parse("class c {@set field = false;}"); Reflect.parse("class c {@target field = false;}"); assertThrowsInstanceOf(() => Reflect.parse("class c {@ method() {};}"), SyntaxError) assertThrowsInstanceOf(() => Reflect.parse("class c {@((a, b, c => {}) method(a, b) assertThrowsInstanceOf(() => Reflect.parse("class c {@dec1 static @dec2 method(a, b assertThrowsInstanceOf(() => Reflect.parse("@dec1 let x = 1"), SyntaxError); assertThrowsInstanceOf(() => Reflect.parse("@dec1 f(a) {}"), SyntaxError); assertThrowsInstanceOf(() => Reflect.parse("@dec1 () => {}"), SyntaxError); assertThrowsInstanceOf(() => Reflect.parse("@class class { x; }"), SyntaxError); assertThrowsInstanceOf(() => Reflect.parse("@for class { x; }"), SyntaxError); assertThrowsInstanceOf(() => Reflect.parse("class c {@dec1. method() {};}"), SyntaxE assertThrowsInstanceOf(() => Reflect.parse("@dec1. class c {method() {};}"), SyntaxE assertThrowsInstanceOf(() => Reflect.parse("@dec1.(a) class c {method() {};}"), Synt assertThrowsInstanceOf(() => Reflect.parse("class c {accessor method() {};}"), Synta assertThrowsInstanceOf(() => Reflect.parse("class c {accessor @dec1 field = false;} assertThrowsInstanceOf(() => Reflect.parse("class c {accessor, }"), SyntaxError); assertThrowsInstanceOf(() => Reflect.parse("({ accessor field: 10 })"), SyntaxError) assertThrowsInstanceOf(() => Reflect.parse("({ accessor foo });"), SyntaxError); assertThrowsInstanceOf(() => Reflect.parse("({ accessor foo = 10 } = {});"), SyntaxE assertThrowsInstanceOf(() => Reflect.parse("class c {async accessor foo() {}}"), Syn assertThrowsInstanceOf(() => Reflect.parse("class c {accessor set field(a) {}}"), Sy assertThrowsInstanceOf(() => Reflect.parse("class c {accessor *field(a) {}}"), Synta assertThrowsInstanceOf(() => Reflect.parse("class c {accessor *field(a) {}}"), Synta assertThrowsInstanceOf(() => Reflect.parse("class c {@dec[0] x}"), SyntaxError); assertThrowsInstanceOf(() => Reflect.parse("class c {@new dec() x}"), SyntaxError); assertThrowsInstanceOf(() => Reflect.parse("class c {@super x}"), SyntaxError); assertThrowsInstanceOf(() => Reflect.parse("class c {@super() x}"), SyntaxError); assertThrowsInstanceOf(() => Reflect.parse("class c {@super.dec() x}"), SyntaxError) assertThrowsInstanceOf(() => Reflect.parse("class c {@import \"decorator\" x}"), Syn assertThrowsInstanceOf(() => Reflect.parse("class c {@dec`template` x}"), SyntaxErro assertThrowsInstanceOf(() => Reflect.parse("class c {@import.meta.url x}"), SyntaxEr assertThrowsInstanceOf(() => Reflect.parse("class c {@new.target x}"), SyntaxError); assertThrowsInstanceOf(() => Reflect.parse("class c {@obj.first?.second x}"), Syntax assertThrowsInstanceOf(() => Reflect.parse("class c {@class x}"), SyntaxError); assertThrowsInstanceOf(() => Reflect.parse("class c {@function() x}"), SyntaxError); assertThrowsInstanceOf(() => Reflect.parse("class c {@{} x}"), SyntaxError); assertThrowsInstanceOf(() => Reflect.parse("class c {@[] x}"), SyntaxError); assertThrowsInstanceOf(() => Reflect.parse("class c {@\"string\" x}"), SyntaxError); assertThrowsInstanceOf(() => Reflect.parse("class c {@`string` x}"), SyntaxError); assertThrowsInstanceOf(() => Reflect.parse("class c {@/[a-z]+/ x}"), SyntaxError); assertThrowsInstanceOf(() => Reflect.parse("class c {@true x}"), SyntaxError); assertThrowsInstanceOf(() => Reflect.parse("class c {@1n x}"), SyntaxError); assertThrowsInstanceOf(() => Reflect.parse("class c {@this x}"), SyntaxError); assertThrowsInstanceOf(() => Reflect.parse("class c {@null x}"), SyntaxError); assertThrowsInstanceOf(() => Reflect.parse("class c {@... x}"), SyntaxError); assertThrowsInstanceOf(() => Reflect.parse("class c {@let x}"), SyntaxError); assertThrowsInstanceOf(() => Reflect.parse("class c {@static x}"), SyntaxError); assertThrowsInstanceOf(() => Reflect.parse("class c {@yield x}"), SyntaxError); assertThrowsInstanceOf(() => Reflect.parse("class c {@if x}"), SyntaxError); assertThrowsInstanceOf(() => Reflect.parse("class c {@enum x}"), SyntaxError); assertThrowsInstanceOf(() => Reflect.parse("class c {@implements x}"), SyntaxError); assertThrowsInstanceOf(() => Reflect.parse("class c {@foo().bar.prop x}"), SyntaxErr assertThrowsInstanceOf(() => Reflect.parse("class c {@foo.bar().prop x}"), SyntaxErr assertThrowsInstanceOf(() => Reflect.parse("class c {@foo.bar().prop() x}"), SyntaxE // assert we have the right syntax tree const syntax = Reflect.parse("class c {}"); assertEq(syntax.type, "Program"); assertEq(syntax.body.length, 1); assertEq(syntax.body[0].type, "ClassStatement"); assertEq(syntax.body[0].id.type, "Identifier"); assertEq(syntax.body[0].id.name, "c"); assertEq(syntax.body[0].decorators, null); // assert decrorators on a class const syntax2 = Reflect.parse("@dec @dec2 class c {}"); assertEq(syntax2.type, "Program"); assertEq(syntax2.body.length, 1); assertEq(syntax2.body[0].decorators.type, "SequenceExpression"); assertEq(syntax2.body[0].decorators.expressions.length, 2); assertEq(syntax2.body[0].decorators.expressions[0].type, "Identifier"); assertEq(syntax2.body[0].decorators.expressions[0].name, "dec"); assertEq(syntax2.body[0].decorators.expressions[1].type, "Identifier"); assertEq(syntax2.body[0].decorators.expressions[1].name, "dec2"); // assert decorators on class fields const syntax3 = Reflect.parse("class c {@dec1 @dec2 field = false;}"); assertEq(syntax3.type, "Program"); assertEq(syntax3.body.length, 1); assertEq(syntax3.body[0].decorators, null); assertEq(syntax3.body[0].body[0].type, "ClassField"); assertEq(syntax3.body[0].body[0].decorators.type, "SequenceExpression"); assertEq(syntax3.body[0].body[0].decorators.expressions.length, 2); assertEq(syntax3.body[0].body[0].decorators.expressions[0].type, "Identifier"); assertEq(syntax3.body[0].body[0].decorators.expressions[0].name, "dec1"); assertEq(syntax3.body[0].body[0].decorators.expressions[1].type, "Identifier"); assertEq(syntax3.body[0].body[0].decorators.expressions[1].name, "dec2"); // assert decorators on accessors const syntax4 = Reflect.parse("class c {@dec1 @dec2 accessor field = false;}"); assertEq(syntax3.type, "Program"); assertEq(syntax3.body.length, 1); assertEq(syntax3.body[0].decorators, null); assertEq(syntax3.body[0].body[0].type, "ClassField"); assertEq(syntax3.body[0].body[0].decorators.type, "SequenceExpression"); assertEq(syntax3.body[0].body[0].decorators.expressions.length, 2); assertEq(syntax3.body[0].body[0].decorators.expressions[0].type, "Identifier"); assertEq(syntax3.body[0].body[0].decorators.expressions[0].name, "dec1"); assertEq(syntax3.body[0].body[0].decorators.expressions[1].type, "Identifier"); assertEq(syntax3.body[0].body[0].decorators.expressions[1].name, "dec2"); // assert decorators on methods const syntax5 = Reflect.parse("class c {@dec1 @dec2 method() {};}"); assertEq(syntax5.type, "Program"); assertEq(syntax5.body.length, 1); assertEq(syntax5.body[0].decorators, null); assertEq(syntax5.body[0].body[0].type, "ClassMethod"); assertEq(syntax5.body[0].body[0].decorators.type, "SequenceExpression"); assertEq(syntax5.body[0].body[0].decorators.expressions.length, 2); assertEq(syntax5.body[0].body[0].decorators.expressions[0].type, "Identifier"); assertEq(syntax5.body[0].body[0].decorators.expressions[0].name, "dec1"); assertEq(syntax5.body[0].body[0].decorators.expressions[1].type, "Identifier"); assertEq(syntax5.body[0].body[0].decorators.expressions[1].name, "dec2");
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2026-04-02