// Copyright 2013 the V8 project authors. All rights reserved. // 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. // Test for-of semantics. "use strict"; // First, some helpers. function* values() { for (var i = 0; i < arguments.length; i++) { yield arguments[i]; } } function wrap_iterator(iterator) { var iterable = {}; iterable[Symbol.iterator] = function() { return iterator; }; return iterable; } function integers_until(max) { function next() { var ret = { value: this.n, done: this.n == max }; this.n++; return ret; } return wrap_iterator({ next: next, n: 0 }); } function results(results) { var i = 0; function next() { return results[i++]; } return wrap_iterator({ next: next }); } function* integers_from(n) { while (1) yield n++; } // A destructive append. function append(x, tail) { tail[tail.length] = x; return tail; } function sum(x, tail) { return x + tail; } function fold(cons, seed, iterable) { for (var x of iterable) { seed = cons(x, seed); } return seed; } function* take(iterable, n) { if (n == 0) return; for (let x of iterable) { yield x; if (--n == 0) break; } } function nth(iterable, n) { for (let x of iterable) { if (n-- == 0) return x; } throw "unreachable"; } function* skip_every(iterable, n) { var i = 0; for (let x of iterable) { if (++i % n == 0) continue; yield x; } } function* iter_map(iterable, f) { for (var x of iterable) { yield f(x); } } function nested_fold(cons, seed, iterable) { var visited = [] for (let x of iterable) { for (let y of x) { seed = cons(y, seed); } } return seed; } function* unreachable(iterable) { for (let x of iterable) { throw "not reached"; } } function one_time_getter(o, prop, val) { function set_never() { throw "unreachable"; } var gotten = false; function get_once() { if (gotten) throw "got twice"; gotten = true; return val; } Object.defineProperty(o, prop, {get: get_once, set: set_never}) return o; } function never_getter(o, prop) { function never() { throw "unreachable"; } Object.defineProperty(o, prop, {get: never, set: never}) return o; } function remove_next_after(iterable, n) { var iterator = iterable[Symbol.iterator](); function next() { if (n-- == 0) delete this.next; return iterator.next(); } return wrap_iterator({ next: next }); } function poison_next_after(iterable, n) { var iterator = iterable[Symbol.iterator](); function next() { return iterator.next(); } function next_getter() { if (n-- < 0) throw "poisoned"; return next; } var o = {}; Object.defineProperty(o, 'next', { get: next_getter }); return wrap_iterator(o); } // Now, the tests. // Non-generator iterators. assertEquals(45, fold(sum, 0, integers_until(10))); // Generator iterators. assertEquals([1, 2, 3], fold(append, [], values(1, 2, 3))); // Break. assertEquals(45, fold(sum, 0, take(integers_from(0), 10))); // Continue. assertEquals(90, fold(sum, 0, take(skip_every(integers_from(0), 2), 10))); // Return. assertEquals(10, nth(integers_from(0), 10)); // Nested for-of. assertEquals([0, 0, 1, 0, 1, 2, 0, 1, 2, 3], nested_fold(append, [], iter_map(integers_until(5), integers_until))); // Result objects with sparse fields. assertEquals([undefined, 1, 2, 3], fold(append, [], results([{ done: false }, { value: 1, done: false }, // A missing "done" is the same as undefined, which // is false. { value: 2 }, // Not done. { value: 3, done: 0 }, // Done. { value: 4, done: 42 }]))); // Results that are not objects. assertThrows(function() { assertEquals([undefined, undefined, undefined], fold(append, [], results([10, "foo", /qux/, { value: 37, done: true }]))); }, TypeError); // Getters (shudder). assertEquals([1, 2], fold(append, [], results([one_time_getter({ value: 1 }, 'done', false), one_time_getter({ done: false }, 'value', 2), { value: 37, done: true }, never_getter(never_getter({}, 'done'), 'value')]))); // Unlike the case with for-in, null and undefined cause an error. assertThrows('fold(sum, 0, unreachable(null))', TypeError); assertThrows('fold(sum, 0, unreachable(undefined))', TypeError); // Other non-iterators do cause an error. assertThrows('fold(sum, 0, unreachable({}))', TypeError); assertThrows('fold(sum, 0, unreachable(false))', TypeError); assertThrows('fold(sum, 0, unreachable(37))', TypeError); // "next" is looked up only once during the iteration prologue (see // https://github.com/tc39/ecma262/pull/988) assertEquals(45, fold(sum, 0, remove_next_after(integers_until(10), 5))); assertEquals(45, fold(sum, 0, remove_next_after(integers_until(10), 10))); assertEquals(45, fold(sum, 0, poison_next_after(integers_until(10), 10))); function labelled_continue(iterable) { var n = 0; outer: while (true) { n++; for (var x of iterable) continue outer; break; } return n; } assertEquals(11, labelled_continue(integers_until(10))); function labelled_break(iterable) { var n = 0; outer: while (true) { n++; for (var x of iterable) break outer; } return n; } assertEquals(1, labelled_break(integers_until(10))); // Test continue/break in catch. function catch_control(iterable, k) { var n = 0; for (var x of iterable) { try { return k(x); } catch (e) { if (e == "continue") continue; else if (e == "break") break; else throw e; } } while (false); return false; } assertEquals(false, catch_control(integers_until(10), function() { throw "break" })); assertEquals(false, catch_control(integers_until(10), function() { throw "continue" })); assertEquals(5, catch_control(integers_until(10), function(x) { if (x == 5) return x; throw "continue"; })); // Test continue/break in try. function try_control(iterable, k) { var n = 0; for (var x of iterable) { try { var e = k(x); if (e == "continue") continue; else if (e == "break") break; return e; } catch (e) { throw e; } } while (false); return false; } assertEquals(false, try_control(integers_until(10), function() { return "break" })); assertEquals(false, try_control(integers_until(10), function() { return "continue" })); assertEquals(5, try_control(integers_until(10), function(x) { return (x == 5) ? x : "continue" })); // TODO(neis,cbruni): Enable once the corresponding traps work again. // Proxy results, with getters. // function transparent_proxy(x) { // return new Proxy({}, { // get: function(receiver, name) { return x[name]; } // }); // } // assertEquals([1, 2], // fold(append, [], // results([one_time_getter({ value: 1 }, 'done', false), // one_time_getter({ done: false }, 'value', 2), // { value: 37, done: true }, // never_getter(never_getter({}, 'done'), 'value')] // .map(transparent_proxy)))); // Proxy iterators. // function poison_proxy_after(iterable, n) { // var iterator = iterable[Symbol.iterator](); // return wrap_iterator(new Proxy({}, { // get: function(receiver, name) { // if (name == 'next' && n-- < 0) throw "unreachable"; // return iterator[name]; // }, // // Needed for integers_until(10)'s this.n++. // set: function(receiver, name, val) { // return iterator[name] = val; // } // })); // } // assertEquals(45, fold(sum, 0, poison_proxy_after(integers_until(10), 10))); function test_iterator_result_object_non_object(value, descr) { var arr = []; var ex; var message = 'Iterator result ' + (descr || value) + ' is not an object'; try { fold(append, arr, results([{value: 1}, {}, value, {value: 2}, {done: true}])); } catch (e) { ex = e; } assertInstanceof(ex, TypeError); assertEquals(message, ex.message); assertArrayEquals([1, undefined], arr); } test_iterator_result_object_non_object(null); test_iterator_result_object_non_object(undefined); test_iterator_result_object_non_object(42); test_iterator_result_object_non_object('abc'); test_iterator_result_object_non_object(false); test_iterator_result_object_non_object(Symbol('x'), 'Symbol(x)');