JSTests/stress/class-fields-static-harmony.js - WebKit - Git at Google

 //@ defaultNoEagerRun

 // Copyright 2017 the V8 project authors. All rights reserved.

 // Use of this source code is governed by a BSD-style license that can be
 // found in the LICENSE file.
 // Redistribution and use in source and binary forms, with or without
 // modification, are permitted provided that the following conditions are
 // met:
 //
 //     * Redistributions of source code must retain the above copyright
 //       notice, this list of conditions and the following disclaimer.
 //     * Redistributions in binary form must reproduce the above
 //       copyright notice, this list of conditions and the following
 //       disclaimer in the documentation and/or other materials provided
 //       with the distribution.
 //     * Neither the name of Google Inc. nor the names of its
 //       contributors may be used to endorse or promote products derived
 //       from this software without specific prior written permission.
 //
 // THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
 // "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
 // LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
 // A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
 // OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
 // SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
 // LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
 // DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
 // THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
 // (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
 // OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.

 "use strict";

 load("./resources/harmony-support.js");

 {
   class C {
     static a;
   }

   assertEquals(undefined, C.a);
   let descriptor = Object.getOwnPropertyDescriptor(C, 'a');
   assertTrue(C.hasOwnProperty('a'));
   assertTrue(descriptor.writable);
   assertTrue(descriptor.enumerable);
   assertTrue(descriptor.configurable);

   let c = new C;
   assertEquals(undefined, c.a);
 }

 {
   let x = 'a';
   class C {
     static a;
     static hasOwnProperty = function() { return 1; }
     static b = x;
     static c = 1;
   }

   assertEquals(undefined, C.a);
   assertEquals('a', C.b);
   assertEquals(1, C.c);
   assertEquals(1, C.hasOwnProperty());

   let c = new C;
   assertEquals(undefined, c.a);
   assertEquals(undefined, c.b);
   assertEquals(undefined, c.c);
 }

 {
   assertThrows(() => {
     class C {
       static x = Object.freeze(this);
       static c = 42;
     }
   }, TypeError);
 }

 {
   class C {
     static c = this;
     static d = () => this;
   }

   assertEquals(C, C.c);
   assertEquals(C, C.d());

   let c = new C;
   assertEquals(undefined, c.c);
   assertEquals(undefined, c.d);
 }

 {
   class C {
     static c = 1;
     static d = this.c;
   }

   assertEquals(1, C.c);
   assertEquals(1, C.d);

   let c = new C;
   assertEquals(undefined, c.c);
   assertEquals(undefined, c.d);
 }

 {
   class C {
     static b = 1;
     static c = () => this.b;
   }

   assertEquals(1, C.b);
   assertEquals(1, C.c());

   let c = new C;
   assertEquals(undefined, c.c);
 }

 {
   let x = 'a';
   class C {
     static b = 1;
     static c = () => this.b;
     static e = () => x;
   }

   assertEquals(1, C.b);
   assertEquals('a', C.e());

   let a = {b : 2 };
   assertEquals(1, C.c.call(a));

   let c = new C;
   assertEquals(undefined, c.b);
   assertEquals(undefined, c.c);
 }

 {
   let x = 'a';
   class C {
     static c = 1;
     static d = function() { return this.c; };
     static e = function() { return x; };
   }

   assertEquals(1, C.c);
   assertEquals(1, C.d());
   assertEquals('a', C.e());

   C.c = 2;
   assertEquals(2, C.d());

   let a = {c : 3 };
   assertEquals(3, C.d.call(a));

   assertThrows(C.d.bind(undefined));

   let c = new C;
   assertEquals(undefined, c.c);
   assertEquals(undefined, c.d);
   assertEquals(undefined, c.e);
 }

 {
   class C {
     static c = function() { return 1 };
   }

   assertEquals('c', C.c.name);
 }

 {
   let d = function() { return new.target; }
   class C {
     static c = d;
   }

   assertEquals(undefined, C.c());
   assertEquals(new d, new C.c());
 }

 {
   class C {
     static c = () => new.target;
   }

   assertEquals(undefined, C.c());
 }

 {
    class C {
      static c = () => {
        let b;
        class A {
          constructor() {
            b = new.target;
          }
        };
        new A;
        assertEquals(A, b);
      }
   }

   C.c();
 }

 {
   class C {
     static c = new.target;
   }

   assertEquals(undefined, C.c);
 }

 {
   class B {
     static d = 1;
     static b = () => this.d;
   }

   class C extends B {
     static c = super.d;
     static d = () => super.d;
     static e = () => super.b();
   }

   assertEquals(1, C.c);
   assertEquals(1, C.d());
   assertEquals(1, C.e());
 }

 {
   let foo = undefined;
   class B {
     static set d(x) {
       foo = x;
     }
   }

   class C extends B {
     static d = 2;
   }

   assertEquals(undefined, foo);
   assertEquals(2, C.d);
 }


 {
   let C  = class {
     static c;
   };

   assertEquals("C", C.name);
 }

 {
   class C {
     static c = new C;
   }

   assertTrue(C.c instanceof C);
 }

 (function test() {
   function makeC() {
     var x = 1;

     return class {
       static a = () => () => x;
     }
   }

   let C = makeC();
   let f = C.a();
   assertEquals(1, f());
 })()

 {
   let c = "c";
   class C {
     static ["a"] = 1;
     static ["b"];
     static [c];
   }

   assertEquals(1, C.a);
   assertEquals(undefined, C.b);
   assertEquals(undefined, C[c]);
 }

 {
   let log = [];
   function run(i) {
     log.push(i);
     return i;
   }

   class C {
     static [run(1)] = run(6);
     static [run(2)] = run(7);
     [run(3)]() { run(9);}
     static [run(4)] = run(8);
     static [run(5)]() { throw new Error('should not execute');};
   }

   let c = new C;
   c[3]();
   assertEquals([1, 2, 3, 4, 5, 6, 7, 8, 9], log);
 }


 function x() {

   // This tests lazy parsing.
   return function() {
     let log = [];
     function run(i) {
       log.push(i);
       return i;
     }

     class C {
       static [run(1)] = run(6);
       static [run(2)] = run(7);
       [run(3)]() { run(9);}
       static [run(4)] = run(8);
       static [run(5)]() { throw new Error('should not execute');};
     }

     let c = new C;
     c[3]();
     assertEquals([1, 2, 3, 4, 5, 6, 7, 8, 9], log);
   }
 }
 x()();

 {
   let log = [];
   function run(i) {
     log.push(i);
     return i;
   }

   class C {
     [run(1)] = run(7);
     [run(2)] = run(8);
     [run(3)]() { run(9);}
     static [run(4)] = run(6);
     [run(5)]() { throw new Error('should not execute');};
   }

   let c = new C;
   c[3]();
   assertEquals([1, 2, 3, 4, 5, 6, 7, 8, 9], log);
 }

 function y() {
   // This tests lazy parsing.
   return function() {
     let log = [];
     function run(i) {
       log.push(i);
       return i;
     }

     class C {
       [run(1)] = run(7);
       [run(2)] = run(8);
       [run(3)]() { run(9);}
       static [run(4)] = run(6);
       [run(5)]() { throw new Error('should not execute');};
     }

     let c = new C;
     c[3]();
     assertEquals([1, 2, 3, 4, 5, 6, 7, 8, 9], log);
   }
 }
 y()();

 {
   class C {}
   class D {
     static [C];
   }

   assertThrows(() => { class X { static [X] } });
   assertEquals(undefined, D[C]);
 }

 {
   function t() {
     return class {
       static ['x'] = 2;
     }
   }

   let klass = t();
   let obj = new klass;
   assertEquals(2, klass.x);
 }

 {
   let x = 'a';
   class C {
     a;
     b = x;
     c = 1;
     hasOwnProperty() { return 1;}
     static [x] = 2;
     static b = 3;
     static d;
   }

   assertEquals(2, C.a);
   assertEquals(3, C.b);
   assertEquals(undefined, C.d);
   assertEquals(undefined, C.c);

   let c = new C;
   assertEquals(undefined, c.a);
   assertEquals('a', c.b);
   assertEquals(1, c.c);
   assertEquals(undefined, c.d);
   assertEquals(1, c.hasOwnProperty());
 }

 {
   function t() {
     return class {
       ['x'] = 1;
       static ['x'] = 2;
     }
   }

   let klass = t();
   let obj = new klass;
   assertEquals(1, obj.x);
   assertEquals(2, klass.x);
 }


 {
   class X {
     static p = function() { return arguments[0]; }
   }

   assertEquals(1, X.p(1));
 }

 {
   class X {
     static t = () => {
       function p() { return arguments[0]; };
       return p;
     }
   }

   let p = X.t();
   assertEquals(1, p(1));
 }

 {
   class X {
     static t = () => {
       function p() { return eval("arguments[0]"); };
       return p;
     }
   }

   let p = X.t();
   assertEquals(1, p(1));
 }

 {
   class X {
     static p = eval("(function() { return arguments[0]; })(1)");
   }

   assertEquals(1, X.p);
 }

 /*
 {
   let p = { z: class { static y = this.name } }
   assertEquals(p.z.y, 'z');

   let q = { ["z"]: class { static y = this.name } }
   assertEquals(q.z.y, 'z');

   const C = class {
     static x = this.name;
   }
   assertEquals(C.x, 'C');
 }
 */
	//@ defaultNoEagerRun

	// Copyright 2017 the V8 project authors. All rights reserved.

	// Use of this source code is governed by a BSD-style license that can be
	// found in the LICENSE file.
	// Redistribution and use in source and binary forms, with or without
	// modification, are permitted provided that the following conditions are
	// met:
	//
	// * Redistributions of source code must retain the above copyright
	// notice, this list of conditions and the following disclaimer.
	// * Redistributions in binary form must reproduce the above
	// copyright notice, this list of conditions and the following
	// disclaimer in the documentation and/or other materials provided
	// with the distribution.
	// * Neither the name of Google Inc. nor the names of its
	// contributors may be used to endorse or promote products derived
	// from this software without specific prior written permission.
	//
	// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
	// "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
	// LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
	// A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
	// OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
	// SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
	// LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
	// DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
	// THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
	// (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
	// OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.

	"use strict";

	load("./resources/harmony-support.js");

	{
	class C {
	static a;
	}

	assertEquals(undefined, C.a);
	let descriptor = Object.getOwnPropertyDescriptor(C, 'a');
	assertTrue(C.hasOwnProperty('a'));
	assertTrue(descriptor.writable);
	assertTrue(descriptor.enumerable);
	assertTrue(descriptor.configurable);

	let c = new C;
	assertEquals(undefined, c.a);
	}

	{
	let x = 'a';
	class C {
	static a;
	static hasOwnProperty = function() { return 1; }
	static b = x;
	static c = 1;
	}

	assertEquals(undefined, C.a);
	assertEquals('a', C.b);
	assertEquals(1, C.c);
	assertEquals(1, C.hasOwnProperty());

	let c = new C;
	assertEquals(undefined, c.a);
	assertEquals(undefined, c.b);
	assertEquals(undefined, c.c);
	}

	{
	assertThrows(() => {
	class C {
	static x = Object.freeze(this);
	static c = 42;
	}
	}, TypeError);
	}

	{
	class C {
	static c = this;
	static d = () => this;
	}

	assertEquals(C, C.c);
	assertEquals(C, C.d());

	let c = new C;
	assertEquals(undefined, c.c);
	assertEquals(undefined, c.d);
	}

	{
	class C {
	static c = 1;
	static d = this.c;
	}

	assertEquals(1, C.c);
	assertEquals(1, C.d);

	let c = new C;
	assertEquals(undefined, c.c);
	assertEquals(undefined, c.d);
	}

	{
	class C {
	static b = 1;
	static c = () => this.b;
	}

	assertEquals(1, C.b);
	assertEquals(1, C.c());

	let c = new C;
	assertEquals(undefined, c.c);
	}

	{
	let x = 'a';
	class C {
	static b = 1;
	static c = () => this.b;
	static e = () => x;
	}

	assertEquals(1, C.b);
	assertEquals('a', C.e());

	let a = {b : 2 };
	assertEquals(1, C.c.call(a));

	let c = new C;
	assertEquals(undefined, c.b);
	assertEquals(undefined, c.c);
	}

	{
	let x = 'a';
	class C {
	static c = 1;
	static d = function() { return this.c; };
	static e = function() { return x; };
	}

	assertEquals(1, C.c);
	assertEquals(1, C.d());
	assertEquals('a', C.e());

	C.c = 2;
	assertEquals(2, C.d());

	let a = {c : 3 };
	assertEquals(3, C.d.call(a));

	assertThrows(C.d.bind(undefined));

	let c = new C;
	assertEquals(undefined, c.c);
	assertEquals(undefined, c.d);
	assertEquals(undefined, c.e);
	}

	{
	class C {
	static c = function() { return 1 };
	}

	assertEquals('c', C.c.name);
	}

	{
	let d = function() { return new.target; }
	class C {
	static c = d;
	}

	assertEquals(undefined, C.c());
	assertEquals(new d, new C.c());
	}

	{
	class C {
	static c = () => new.target;
	}

	assertEquals(undefined, C.c());
	}

	{
	class C {
	static c = () => {
	let b;
	class A {
	constructor() {
	b = new.target;
	}
	};
	new A;
	assertEquals(A, b);
	}
	}

	C.c();
	}

	{
	class C {
	static c = new.target;
	}

	assertEquals(undefined, C.c);
	}

	{
	class B {
	static d = 1;
	static b = () => this.d;
	}

	class C extends B {
	static c = super.d;
	static d = () => super.d;
	static e = () => super.b();
	}

	assertEquals(1, C.c);
	assertEquals(1, C.d());
	assertEquals(1, C.e());
	}

	{
	let foo = undefined;
	class B {
	static set d(x) {
	foo = x;
	}
	}

	class C extends B {
	static d = 2;
	}

	assertEquals(undefined, foo);
	assertEquals(2, C.d);
	}


	{
	let C = class {
	static c;
	};

	assertEquals("C", C.name);
	}

	{
	class C {
	static c = new C;
	}

	assertTrue(C.c instanceof C);
	}

	(function test() {
	function makeC() {
	var x = 1;

	return class {
	static a = () => () => x;
	}
	}

	let C = makeC();
	let f = C.a();
	assertEquals(1, f());
	})()

	{
	let c = "c";
	class C {
	static ["a"] = 1;
	static ["b"];
	static [c];
	}

	assertEquals(1, C.a);
	assertEquals(undefined, C.b);
	assertEquals(undefined, C[c]);
	}

	{
	let log = [];
	function run(i) {
	log.push(i);
	return i;
	}

	class C {
	static [run(1)] = run(6);
	static [run(2)] = run(7);
	[run(3)]() { run(9);}
	static [run(4)] = run(8);
	static [run(5)]() { throw new Error('should not execute');};
	}

	let c = new C;
	c[3]();
	assertEquals([1, 2, 3, 4, 5, 6, 7, 8, 9], log);
	}



	function x() {

	// This tests lazy parsing.
	return function() {
	let log = [];
	function run(i) {
	log.push(i);
	return i;
	}

	class C {
	static [run(1)] = run(6);
	static [run(2)] = run(7);
	[run(3)]() { run(9);}
	static [run(4)] = run(8);
	static [run(5)]() { throw new Error('should not execute');};
	}

	let c = new C;
	c[3]();
	assertEquals([1, 2, 3, 4, 5, 6, 7, 8, 9], log);
	}
	}
	x()();

	{
	let log = [];
	function run(i) {
	log.push(i);
	return i;
	}

	class C {
	[run(1)] = run(7);
	[run(2)] = run(8);
	[run(3)]() { run(9);}
	static [run(4)] = run(6);
	[run(5)]() { throw new Error('should not execute');};
	}

	let c = new C;
	c[3]();
	assertEquals([1, 2, 3, 4, 5, 6, 7, 8, 9], log);
	}

	function y() {
	// This tests lazy parsing.
	return function() {
	let log = [];
	function run(i) {
	log.push(i);
	return i;
	}

	class C {
	[run(1)] = run(7);
	[run(2)] = run(8);
	[run(3)]() { run(9);}
	static [run(4)] = run(6);
	[run(5)]() { throw new Error('should not execute');};
	}

	let c = new C;
	c[3]();
	assertEquals([1, 2, 3, 4, 5, 6, 7, 8, 9], log);
	}
	}
	y()();

	{
	class C {}
	class D {
	static [C];
	}

	assertThrows(() => { class X { static [X] } });
	assertEquals(undefined, D[C]);
	}

	{
	function t() {
	return class {
	static ['x'] = 2;
	}
	}

	let klass = t();
	let obj = new klass;
	assertEquals(2, klass.x);
	}

	{
	let x = 'a';
	class C {
	a;
	b = x;
	c = 1;
	hasOwnProperty() { return 1;}
	static [x] = 2;
	static b = 3;
	static d;
	}

	assertEquals(2, C.a);
	assertEquals(3, C.b);
	assertEquals(undefined, C.d);
	assertEquals(undefined, C.c);

	let c = new C;
	assertEquals(undefined, c.a);
	assertEquals('a', c.b);
	assertEquals(1, c.c);
	assertEquals(undefined, c.d);
	assertEquals(1, c.hasOwnProperty());
	}

	{
	function t() {
	return class {
	['x'] = 1;
	static ['x'] = 2;
	}
	}

	let klass = t();
	let obj = new klass;
	assertEquals(1, obj.x);
	assertEquals(2, klass.x);
	}


	{
	class X {
	static p = function() { return arguments[0]; }
	}

	assertEquals(1, X.p(1));
	}

	{
	class X {
	static t = () => {
	function p() { return arguments[0]; };
	return p;
	}
	}

	let p = X.t();
	assertEquals(1, p(1));
	}

	{
	class X {
	static t = () => {
	function p() { return eval("arguments[0]"); };
	return p;
	}
	}

	let p = X.t();
	assertEquals(1, p(1));
	}

	{
	class X {
	static p = eval("(function() { return arguments[0]; })(1)");
	}

	assertEquals(1, X.p);
	}

	/*
	{
	let p = { z: class { static y = this.name } }
	assertEquals(p.z.y, 'z');

	let q = { ["z"]: class { static y = this.name } }
	assertEquals(q.z.y, 'z');

	const C = class {
	static x = this.name;
	}
	assertEquals(C.x, 'C');
	}
	*/