src/v8/test/mjsunit/es7/exponentiation-operator.js - cobalt - Git at Google

 // Copyright 2016 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.

 function TestBasic() {
   assertEquals(-(8 ** 2), -64);
   assertEquals(+(8 ** 2), 64);
   assertEquals(~(8 ** 2), -65);
   assertEquals(!(8 ** 2), false);

   assertEquals(2 ** -2, 0.25);

   var o = { p: 1 };
   assertEquals(2 ** delete o.p, 2);

   assertEquals(2 ** void 1, NaN);

   assertEquals(2 ** typeof 1, NaN);

   var s = "2";
   var n = 2;

   assertEquals(2 ** "2", 4);
   assertEquals(2 ** +"2", 4);
   assertEquals(2 ** +s, 4);
   assertEquals(2 ** s, 4);
   assertEquals(2 ** 2, 4);
   assertEquals(2 ** +2, 4);
   assertEquals(2 ** +n, 4);
   assertEquals(2 ** n, 4);

   assertEquals(2 ** -"2", 0.25);
   assertEquals(2 ** -s, 0.25);
   assertEquals(2 ** -2, 0.25);
   assertEquals(2 ** -n, 0.25);

   assertEquals(2 ** ~"2", 0.125);
   assertEquals(2 ** ~s, 0.125);
   assertEquals(2 ** ~2, 0.125);
   assertEquals(2 ** ~n, 0.125);

   assertEquals(2 ** !"2", 1);
   assertEquals(2 ** !s, 1);
   assertEquals(2 ** !2, 1);
   assertEquals(2 ** !n, 1);

  var exponent = 2;
  assertEquals(2 ** 3, 8);
  assertEquals(3 * 2 ** 3, 24);
  assertEquals(2 ** ++exponent, 8);
  assertEquals(2 ** -1 * 2, 1);
  assertEquals(2 ** 2 * 4, 16);
  assertEquals(2 ** 2 / 2, 2);
  assertEquals(2 ** (3 ** 2), 512);
  assertEquals(2 ** 3 ** 2, 512);
  assertEquals(2 * 3 ** 2, 18);
  assertEquals(16 / 2 ** 2, 4);
 }
 TestBasic();


 function TestAssignment() {
   var base = -5;
   assertEquals(base **= 3, -125);
   assertEquals(base, -125);
 }
 TestAssignment();


 function TestPrecedence() {
   var base = 4;
   assertEquals(--base ** 2, 9);  // 3 ** 2
   assertEquals(++base ** 2, 16); // 4 ** 2
   assertEquals(base++ ** 2, 16); // 4 ** 2
   assertEquals(base-- ** 2, 25); // 5 ** 2

   assertEquals(4, base);
   assertEquals(--base ** --base ** 2,
                Math.pow(3, Math.pow(2, 2)));

   assertEquals(2, base);
   assertEquals(++base ** ++base ** 2,
                Math.pow(3, Math.pow(4, 2)));

   base = 4;
   assertEquals(base-- ** base-- ** 2,
                Math.pow(4, Math.pow(3, 2)));

   assertEquals(2, base);
   assertEquals(base++ ** base++ ** 2,
                Math.pow(2, Math.pow(3, 2)));
 }
 TestPrecedence();


 function TestInvariants() {
   assertEquals(NaN, 2 ** NaN);
   assertEquals(NaN, (+0) ** NaN);
   assertEquals(NaN, (-0) ** NaN);
   assertEquals(NaN, Infinity ** NaN);
   assertEquals(NaN, (-Infinity) ** NaN);

   assertEquals(1, NaN ** +0);
   assertEquals(1, NaN ** -0);

   assertEquals(NaN, NaN ** NaN);
   assertEquals(NaN, NaN ** 2.2);
   assertEquals(NaN, NaN ** 1);
   assertEquals(NaN, NaN ** -1);
   assertEquals(NaN, NaN ** -2.2);
   assertEquals(NaN, NaN ** Infinity);
   assertEquals(NaN, NaN ** -Infinity);

   assertEquals(Infinity, 1.1 ** Infinity);
   assertEquals(Infinity, (-1.1) ** Infinity);
   assertEquals(Infinity, 2 ** Infinity);
   assertEquals(Infinity, (-2) ** Infinity);

   // Because +0 == -0, we need to compare 1/{+,-}0 to {+,-}Infinity
   assertEquals(+Infinity, 1/1.1 ** -Infinity);
   assertEquals(+Infinity, 1/(-1.1) ** -Infinity);
   assertEquals(+Infinity, 1/2 ** -Infinity);
   assertEquals(+Infinity, 1/(-2) ** -Infinity);

   assertEquals(NaN, 1 ** Infinity);
   assertEquals(NaN, 1 ** -Infinity);
   assertEquals(NaN, (-1) ** Infinity);
   assertEquals(NaN, (-1) ** -Infinity);

   assertEquals(+0, 0.1 ** Infinity);
   assertEquals(+0, (-0.1) ** Infinity);
   assertEquals(+0, 0.999 ** Infinity);
   assertEquals(+0, (-0.999) ** Infinity);

   assertEquals(Infinity, 0.1 ** -Infinity);
   assertEquals(Infinity, (-0.1) ** -Infinity);
   assertEquals(Infinity, 0.999 ** -Infinity);
   assertEquals(Infinity, (-0.999) ** -Infinity);

   assertEquals(Infinity, Infinity ** 0.1);
   assertEquals(Infinity, Infinity ** 2);

   assertEquals(+Infinity, 1/Infinity ** -0.1);
   assertEquals(+Infinity, 1/Infinity ** -2);

   assertEquals(-Infinity, (-Infinity) ** 3);
   assertEquals(-Infinity, (-Infinity) ** 13);

   assertEquals(Infinity, (-Infinity) ** 3.1);
   assertEquals(Infinity, (-Infinity) ** 2);

   assertEquals(-Infinity, 1/(-Infinity) ** -3);
   assertEquals(-Infinity, 1/(-Infinity) ** -13);

   assertEquals(+Infinity, 1/(-Infinity) ** -3.1);
   assertEquals(+Infinity, 1/(-Infinity) ** -2);

   assertEquals(+Infinity, 1/(+0) ** 1.1);
   assertEquals(+Infinity, 1/(+0) ** 2);

   assertEquals(Infinity, (+0) ** -1.1);
   assertEquals(Infinity, (+0) ** -2);

   assertEquals(-Infinity, 1/(-0) ** 3);
   assertEquals(-Infinity, 1/(-0) ** 13);

   assertEquals(+Infinity, 1/(-0) ** 3.1);
   assertEquals(+Infinity, 1/(-0) ** 2);

   assertEquals(-Infinity, (-0) ** -3);
   assertEquals(-Infinity, (-0) ** -13);

   assertEquals(Infinity, (-0) ** -3.1);
   assertEquals(Infinity, (-0) ** -2);

   assertEquals(NaN, (-0.00001) ** 1.1);
   assertEquals(NaN, (-0.00001) ** -1.1);
   assertEquals(NaN, (-1.1) ** 1.1);
   assertEquals(NaN, (-1.1) ** -1.1);
   assertEquals(NaN, (-2) ** 1.1);
   assertEquals(NaN, (-2) ** -1.1);
   assertEquals(NaN, (-1000) ** 1.1);
   assertEquals(NaN, (-1000) ** -1.1);

   assertEquals(+Infinity, 1/(-0) ** 0.5);
   assertEquals(+Infinity, 1/(-0) ** 0.6);
   assertEquals(-Infinity, 1/(-0) ** 1);
   assertEquals(-Infinity, 1/(-0) ** 10000000001);

   assertEquals(+Infinity, (-0) ** -0.5);
   assertEquals(+Infinity, (-0) ** -0.6);
   assertEquals(-Infinity, (-0) ** -1);
   assertEquals(-Infinity, (-0) ** -10000000001);

   assertEquals(4, 16 ** 0.5);
   assertEquals(NaN, (-16) ** 0.5);
   assertEquals(0.25, 16 ** -0.5);
   assertEquals(NaN, (-16) ** -0.5);
 }
 TestInvariants();


 function TestOperationOrder() {
   var log = [];
   var handler = {
     get(t, n) {
       var result = Reflect.get(t, n);
       var str = typeof result === "object" ? "[object Object]" : String(result);
       log.push(`[[Get]](${String(n)}) -> ${str}`);
       return result;
     },
     set(t, n, v) {
       var result = Reflect.set(t, n, v);
       log.push(`[[Set]](${String(n)}, ${String(v)}) -> ${String(result)}`);
       return result;
     },
     has() { assertUnreachable("trap 'has' invoked"); },
     deleteProperty() { assertUnreachable("trap 'deleteProperty' invoked"); },
     ownKeys() { assertUnreachable("trap 'ownKeys' invoked"); },
     apply() { assertUnreachable("trap 'apply' invoked"); },
     construct() { assertUnreachable("trap 'construct' invoked"); },
     getPrototypeOf() { assertUnreachable("trap 'getPrototypeOf' invoked"); },
     setPrototypeOf() { assertUnreachable("trap 'setPrototypeOf' invoked"); },
     isExtensible() { assertUnreachable("trap 'isExtensible' invoked"); },
     preventExtensions() {
       assertUnreachable("trap 'preventExtensions' invoked"); },
     getOwnPropertyDescriptor() {
       assertUnreachable("trap 'getOwnPropertyDescriptor' invoked"); },
     defineProperty() { assertUnreachable("trap 'defineProperty' invoked"); },
   };
   var P = new Proxy({ x: 2 }, handler);

   assertEquals(256, P.x **= "8");
   assertEquals([
     "[[Get]](x) -> 2",
     "[[Set]](x, 256) -> true"
   ], log);

   log = [];
   var O = new Proxy({ p: P }, handler);
   assertEquals(65536, O.p.x **= 2 );
   assertEquals([
     "[[Get]](p) -> [object Object]",
     "[[Get]](x) -> 256",
     "[[Set]](x, 65536) -> true"
   ], log);
 }
 TestOperationOrder();


 function TestOverrideMathPow() {
   var MathPow = MathPow;
   Math.pow = function(a, b) {
     assertUnreachable(`Math.pow(${String(a)}, ${String(b)}) invoked`);
   }

   TestBasic();
   TestAssignment();
   TestInvariants();
   TestOperationOrder();

   Math.pow = MathPow;
 }
 TestOverrideMathPow();

 function TestBadAssignmentLHS() {
   assertThrows("if (false) { 17 **= 10; }", ReferenceError);
   assertThrows("if (false) { '17' **= 10; }", ReferenceError);
   assertThrows("if (false) { /17/ **= 10; }", ReferenceError);
   assertThrows("if (false) { ({ valueOf() { return 17; } } **= 10); }",
                ReferenceError);
   // TODO(caitp): a Call expression as LHS should be an early ReferenceError!
   // assertThrows("if (false) { Array() **= 10; }", ReferenceError);
   assertThrows(() => Array() **= 10, ReferenceError);
 }
 TestBadAssignmentLHS();
	// Copyright 2016 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.

	function TestBasic() {
	assertEquals(-(8 ** 2), -64);
	assertEquals(+(8 ** 2), 64);
	assertEquals(~(8 ** 2), -65);
	assertEquals(!(8 ** 2), false);

	assertEquals(2 ** -2, 0.25);

	var o = { p: 1 };
	assertEquals(2 ** delete o.p, 2);

	assertEquals(2 ** void 1, NaN);

	assertEquals(2 ** typeof 1, NaN);

	var s = "2";
	var n = 2;

	assertEquals(2 ** "2", 4);
	assertEquals(2 ** +"2", 4);
	assertEquals(2 ** +s, 4);
	assertEquals(2 ** s, 4);
	assertEquals(2 ** 2, 4);
	assertEquals(2 ** +2, 4);
	assertEquals(2 ** +n, 4);
	assertEquals(2 ** n, 4);

	assertEquals(2 ** -"2", 0.25);
	assertEquals(2 ** -s, 0.25);
	assertEquals(2 ** -2, 0.25);
	assertEquals(2 ** -n, 0.25);

	assertEquals(2 ** ~"2", 0.125);
	assertEquals(2 ** ~s, 0.125);
	assertEquals(2 ** ~2, 0.125);
	assertEquals(2 ** ~n, 0.125);

	assertEquals(2 ** !"2", 1);
	assertEquals(2 ** !s, 1);
	assertEquals(2 ** !2, 1);
	assertEquals(2 ** !n, 1);

	var exponent = 2;
	assertEquals(2 ** 3, 8);
	assertEquals(3 * 2 ** 3, 24);
	assertEquals(2 ** ++exponent, 8);
	assertEquals(2 ** -1 * 2, 1);
	assertEquals(2 ** 2 * 4, 16);
	assertEquals(2 ** 2 / 2, 2);
	assertEquals(2 (3 2), 512);
	assertEquals(2 3 2, 512);
	assertEquals(2 * 3 ** 2, 18);
	assertEquals(16 / 2 ** 2, 4);
	}
	TestBasic();


	function TestAssignment() {
	var base = -5;
	assertEquals(base **= 3, -125);
	assertEquals(base, -125);
	}
	TestAssignment();


	function TestPrecedence() {
	var base = 4;
	assertEquals(--base 2, 9); // 3 2
	assertEquals(++base 2, 16); // 4 2
	assertEquals(base++ 2, 16); // 4 2
	assertEquals(base-- 2, 25); // 5 2

	assertEquals(4, base);
	assertEquals(--base --base 2,
	Math.pow(3, Math.pow(2, 2)));

	assertEquals(2, base);
	assertEquals(++base ++base 2,
	Math.pow(3, Math.pow(4, 2)));

	base = 4;
	assertEquals(base-- base-- 2,
	Math.pow(4, Math.pow(3, 2)));

	assertEquals(2, base);
	assertEquals(base++ base++ 2,
	Math.pow(2, Math.pow(3, 2)));
	}
	TestPrecedence();


	function TestInvariants() {
	assertEquals(NaN, 2 ** NaN);
	assertEquals(NaN, (+0) ** NaN);
	assertEquals(NaN, (-0) ** NaN);
	assertEquals(NaN, Infinity ** NaN);
	assertEquals(NaN, (-Infinity) ** NaN);

	assertEquals(1, NaN ** +0);
	assertEquals(1, NaN ** -0);

	assertEquals(NaN, NaN ** NaN);
	assertEquals(NaN, NaN ** 2.2);
	assertEquals(NaN, NaN ** 1);
	assertEquals(NaN, NaN ** -1);
	assertEquals(NaN, NaN ** -2.2);
	assertEquals(NaN, NaN ** Infinity);
	assertEquals(NaN, NaN ** -Infinity);

	assertEquals(Infinity, 1.1 ** Infinity);
	assertEquals(Infinity, (-1.1) ** Infinity);
	assertEquals(Infinity, 2 ** Infinity);
	assertEquals(Infinity, (-2) ** Infinity);

	// Because +0 == -0, we need to compare 1/{+,-}0 to {+,-}Infinity
	assertEquals(+Infinity, 1/1.1 ** -Infinity);
	assertEquals(+Infinity, 1/(-1.1) ** -Infinity);
	assertEquals(+Infinity, 1/2 ** -Infinity);
	assertEquals(+Infinity, 1/(-2) ** -Infinity);

	assertEquals(NaN, 1 ** Infinity);
	assertEquals(NaN, 1 ** -Infinity);
	assertEquals(NaN, (-1) ** Infinity);
	assertEquals(NaN, (-1) ** -Infinity);

	assertEquals(+0, 0.1 ** Infinity);
	assertEquals(+0, (-0.1) ** Infinity);
	assertEquals(+0, 0.999 ** Infinity);
	assertEquals(+0, (-0.999) ** Infinity);

	assertEquals(Infinity, 0.1 ** -Infinity);
	assertEquals(Infinity, (-0.1) ** -Infinity);
	assertEquals(Infinity, 0.999 ** -Infinity);
	assertEquals(Infinity, (-0.999) ** -Infinity);

	assertEquals(Infinity, Infinity ** 0.1);
	assertEquals(Infinity, Infinity ** 2);

	assertEquals(+Infinity, 1/Infinity ** -0.1);
	assertEquals(+Infinity, 1/Infinity ** -2);

	assertEquals(-Infinity, (-Infinity) ** 3);
	assertEquals(-Infinity, (-Infinity) ** 13);

	assertEquals(Infinity, (-Infinity) ** 3.1);
	assertEquals(Infinity, (-Infinity) ** 2);

	assertEquals(-Infinity, 1/(-Infinity) ** -3);
	assertEquals(-Infinity, 1/(-Infinity) ** -13);

	assertEquals(+Infinity, 1/(-Infinity) ** -3.1);
	assertEquals(+Infinity, 1/(-Infinity) ** -2);

	assertEquals(+Infinity, 1/(+0) ** 1.1);
	assertEquals(+Infinity, 1/(+0) ** 2);

	assertEquals(Infinity, (+0) ** -1.1);
	assertEquals(Infinity, (+0) ** -2);

	assertEquals(-Infinity, 1/(-0) ** 3);
	assertEquals(-Infinity, 1/(-0) ** 13);

	assertEquals(+Infinity, 1/(-0) ** 3.1);
	assertEquals(+Infinity, 1/(-0) ** 2);

	assertEquals(-Infinity, (-0) ** -3);
	assertEquals(-Infinity, (-0) ** -13);

	assertEquals(Infinity, (-0) ** -3.1);
	assertEquals(Infinity, (-0) ** -2);

	assertEquals(NaN, (-0.00001) ** 1.1);
	assertEquals(NaN, (-0.00001) ** -1.1);
	assertEquals(NaN, (-1.1) ** 1.1);
	assertEquals(NaN, (-1.1) ** -1.1);
	assertEquals(NaN, (-2) ** 1.1);
	assertEquals(NaN, (-2) ** -1.1);
	assertEquals(NaN, (-1000) ** 1.1);
	assertEquals(NaN, (-1000) ** -1.1);

	assertEquals(+Infinity, 1/(-0) ** 0.5);
	assertEquals(+Infinity, 1/(-0) ** 0.6);
	assertEquals(-Infinity, 1/(-0) ** 1);
	assertEquals(-Infinity, 1/(-0) ** 10000000001);

	assertEquals(+Infinity, (-0) ** -0.5);
	assertEquals(+Infinity, (-0) ** -0.6);
	assertEquals(-Infinity, (-0) ** -1);
	assertEquals(-Infinity, (-0) ** -10000000001);

	assertEquals(4, 16 ** 0.5);
	assertEquals(NaN, (-16) ** 0.5);
	assertEquals(0.25, 16 ** -0.5);
	assertEquals(NaN, (-16) ** -0.5);
	}
	TestInvariants();


	function TestOperationOrder() {
	var log = [];
	var handler = {
	get(t, n) {
	var result = Reflect.get(t, n);
	var str = typeof result === "object" ? "[object Object]" : String(result);
	log.push(`[[Get]](${String(n)}) -> ${str}`);
	return result;
	},
	set(t, n, v) {
	var result = Reflect.set(t, n, v);
	log.push(`[[Set]](${String(n)}, ${String(v)}) -> ${String(result)}`);
	return result;
	},
	has() { assertUnreachable("trap 'has' invoked"); },
	deleteProperty() { assertUnreachable("trap 'deleteProperty' invoked"); },
	ownKeys() { assertUnreachable("trap 'ownKeys' invoked"); },
	apply() { assertUnreachable("trap 'apply' invoked"); },
	construct() { assertUnreachable("trap 'construct' invoked"); },
	getPrototypeOf() { assertUnreachable("trap 'getPrototypeOf' invoked"); },
	setPrototypeOf() { assertUnreachable("trap 'setPrototypeOf' invoked"); },
	isExtensible() { assertUnreachable("trap 'isExtensible' invoked"); },
	preventExtensions() {
	assertUnreachable("trap 'preventExtensions' invoked"); },
	getOwnPropertyDescriptor() {
	assertUnreachable("trap 'getOwnPropertyDescriptor' invoked"); },
	defineProperty() { assertUnreachable("trap 'defineProperty' invoked"); },
	};
	var P = new Proxy({ x: 2 }, handler);

	assertEquals(256, P.x **= "8");
	assertEquals([
	"[[Get]](x) -> 2",
	"[[Set]](x, 256) -> true"
	], log);

	log = [];
	var O = new Proxy({ p: P }, handler);
	assertEquals(65536, O.p.x **= 2 );
	assertEquals([
	"[[Get]](p) -> [object Object]",
	"[[Get]](x) -> 256",
	"[[Set]](x, 65536) -> true"
	], log);
	}
	TestOperationOrder();


	function TestOverrideMathPow() {
	var MathPow = MathPow;
	Math.pow = function(a, b) {
	assertUnreachable(`Math.pow(${String(a)}, ${String(b)}) invoked`);
	}

	TestBasic();
	TestAssignment();
	TestInvariants();
	TestOperationOrder();

	Math.pow = MathPow;
	}
	TestOverrideMathPow();

	function TestBadAssignmentLHS() {
	assertThrows("if (false) { 17 **= 10; }", ReferenceError);
	assertThrows("if (false) { '17' **= 10; }", ReferenceError);
	assertThrows("if (false) { /17/ **= 10; }", ReferenceError);
	assertThrows("if (false) { ({ valueOf() { return 17; } } **= 10); }",
	ReferenceError);
	// TODO(caitp): a Call expression as LHS should be an early ReferenceError!
	// assertThrows("if (false) { Array() **= 10; }", ReferenceError);
	assertThrows(() => Array() **= 10, ReferenceError);
	}
	TestBadAssignmentLHS();