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explainer/spec: Sync inputs must await each item
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Fixes #9. See also #7.
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js-choi committed Sep 30, 2021
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15 changes: 14 additions & 1 deletion README.md
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Expand Up @@ -75,7 +75,20 @@ will also reject with that error.)
`thisArg` is an optional value with which to call `mapfn`
(or `undefined` by default).

Like `Array.from`, `Array.fromAsync` is a **generic factory method**.
Like `for await`, when `Array.fromAsync` receives a **sync-iterable object**
(and that object is not async iterable),
then it creates a sync iterator for that object and adds its items to an array.
When **any yielded item is a promise**, then that promise will **block** the iteration
until it **resolves** to a value (in which case that value is what is added to the array)
or until it **rejects** with an error (in which case
the promise returned by `Array.fromAsync` itself will reject with that error).

Like `Array.from`, `Array.fromAsync` also works on non-iterable **array-like objects**
(i.e., objects with a length property and indexed elements).
As with sync-iterable objects, any element that is a promise must settle first,
and the value to which it resolves (if any) will be what is added to the resulting array.

Also like `Array.from`, `Array.fromAsync` is a **generic factory method**.
It does not require that its `this` value be the `Array` constructor,
and it can be transferred to or inherited by any other constructors
that may be called with a single numeric argument.
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124 changes: 87 additions & 37 deletions spec.html
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Expand Up @@ -48,59 +48,109 @@ <h1><ins>Array.fromAsync ( _asyncItems_ [ , _mapfn_ [ , _thisArg_ ] ] )</ins></h
1. Else,
1. If IsCallable(_mapfn_) is *false*, throw a *TypeError* exception.
1. Let _mapping_ be *true*.
1. Let _usingAsyncOrSyncIterator_ be ? GetMethod(_asyncItems_, @@asyncIterator).
1. If _usingAsyncOrSyncIterator_ is *undefined*, let _usingAsyncOrSyncIterator_ be ? GetMethod(_asyncItems_, @@iterator).
1. If _usingAsyncOrSyncIterator_ is not *undefined*, then
1. If IsConstructor(_C_) is *true*, then
1. Let _A_ be ? Construct(_C_).
1. Else,
1. Let _A_ be ! ArrayCreate(0).
1. Let _iteratorRecord_ be ? GetIterator(_asyncItems_, ~async~, _usingAsyncOrSyncIterator_).
1. Let _usingAsyncIterator_ be ? GetMethod(_asyncItems_, @@asyncIterator).
1. Else,
1. Let _usingSyncIterator_ be ? GetMethod(_asyncItems_, @@iterator).
1. If _usingSyncIterator_ is *undefined*, set _usingIterator_ to CreateArrayIterator(_asyncItems_, ~value~).
1. If IsConstructor(_C_) is *true*, then
1. Let _A_ be ? Construct(_C_).
1. Else,
1. Let _A_ be ! ArrayCreate(0).
1. If _usingAsyncIterator_ is not *undefined*, then
1. Let _iteratorRecord_ be ? GetIterator(_asyncItems_, ~async~, _usingAsyncIterator_).
1. Else,
1. Let _iteratorRecord_ be ? CreateAsyncFromSyncIterator(GetIterator(_asyncItems_, ~sync~, _usingSyncIterator_)).
1. Let _k_ be 0.
1. Repeat,
1. If _k_ &ge; 2<sup>53</sup> - 1, then
1. Let _error_ be ThrowCompletion(a newly created *TypeError* object).
1. Return ? AsyncIteratorClose(_iteratorRecord_, _error_).
1. Let _Pk_ be ! ToString(𝔽(_k_)).
1. Let _next_ be ? Await(IteratorStep(_iteratorRecord_)).
1. If _next_ is *false*, then
1. Perform ? Set(_A_, *"length"*, 𝔽(_k_), *true*).
1. Return _A_.
1. Let _nextValue_ be ? IteratorValue(_next_).
1. If _mapping_ is *true*, then
1. Let _mappedValue_ be Call(_mapfn_, _thisArg_, &laquo; _nextValue_, 𝔽(_k_) &raquo;).
1. IfAbruptCloseAsyncIterator(_iteratorRecord_, _mappedValue_).
1. Let _mappedValue_ to Await(_mappedValue_).
1. IfAbruptCloseAsyncIterator(_iteratorRecord_, _mappedValue_).
1. Set _mappedValue_ to _mappedValue_.[[Value]].
1. Else, let _mappedValue_ be _nextValue_.
1. Let _defineStatus_ be CreateDataPropertyOrThrow(_A_, _Pk_, _mappedValue_).
1. If _defineStatus_ is an abrupt completion, return ? AsyncIteratorClose(_iteratorRecord_, _defineStatus_).
1. Set _k_ to _k_ + 1.
1. Perform AsyncFunctionStart(promiseCapability, _fromAsyncClosure_).
1. Return Completion { [[Type]]: ~return~, [[Value]]: _promiseCapability_.[[Promise]], [[Target]]: ~empty~ }.
</emu-alg>
<emu-note>
<p>The `fromAsync` function is an intentionally generic factory method; it does not require that its *this* value be the Array constructor. Therefore it can be transferred to or inherited by any other constructors that may be called with a single numeric argument.</p>
</emu-note>
</emu-clause>
</emu-clause>
</emu-clause>

<emu-clause id="sec-typedarray-objects">
<h1>TypedArray Objects</h1>

<emu-clause id="sec-properties-of-the-%typedarray%-intrinsic-object">
<h1>Properties of the %TypedArray% Intrinsic Object</h1>

<emu-clause id="sec-%typedarray%.fromAsync">
<h1><ins>%TypedArray%.fromAsync ( _source_ [ , _mapfn_ [ , _thisArg_ ] ] )</ins></h1>

<emu-note type=editor>
<p>This section is a wholly new subsection of the <a
href=https://tc39.es/ecma262/#sec-properties-of-the-%typedarray%-intrinsic-object>original
Properties of the %TypedArray% Intrinsic Object clause</a>, to be inserted before the <a
href=https://tc39.es/ecma262/#sec-%typedarray%.from>%TypedArray%.from
clause</a>.</p>
</emu-note>

<p>When the `fromAsync` method is called, the following steps are taken:</p>
<emu-alg>
1. Let _C_ be the *this* value.
1. Let _promiseCapability_ be ! NewPromiseCapability(%Promise%).
1. Let _fromAsyncClosure_ be a new Abstract Closure with no parameters that captures _C_ and _mapfn_ and performs the following steps when called:
1. If IsConstructor(_C_) is *false*, throw a *TypeError* exception.
1. If _mapfn_ is *undefined*, let _mapping_ be *false*.
1. Else,
1. If IsCallable(_mapfn_) is *false*, throw a *TypeError* exception.
1. Let _mapping_ be *true*.
1. Let _usingIterator_ be ? GetMethod(_source_, @@iterator).
1. If _usingIterator_ is not *undefined*, then
1. Let _values_ be ? IterableToList(_source_, _usingIterator_).
1. Let _len_ be the number of elements in _values_.
1. Let _targetObj_ be ? TypedArrayCreate(_C_, &laquo; 𝔽(_len_) &raquo;).
1. Let _k_ be 0.
1. Repeat,
1. If _k_ &ge; 2<sup>53</sup> - 1, then
1. Let _error_ be ThrowCompletion(a newly created *TypeError* object).
1. Return ? AsyncIteratorClose(_iteratorRecord_, _error_).
1. Repeat, while _k_ &lt; _len_,
1. Let _Pk_ be ! ToString(𝔽(_k_)).
1. Let _next_ be ? Await(IteratorStep(_iteratorRecord_)).
1. If _next_ is *false*, then
1. Perform ? Set(_A_, *"length"*, 𝔽(_k_), *true*).
1. Return _A_.
1. Let _nextValue_ be ? IteratorValue(_next_).
1. Let _kValue_ be the first element of _values_ and remove that element from _values_.
1. If _mapping_ is *true*, then
1. Let _mappedValue_ be Call(_mapfn_, _thisArg_, &laquo; _nextValue_, 𝔽(_k_) &raquo;).
1. IfAbruptCloseAsyncIterator(_iteratorRecord_, _mappedValue_).
1. Let _mappedValue_ to Await(_mappedValue_).
1. IfAbruptCloseAsyncIterator(_iteratorRecord_, _mappedValue_).
1. Set _mappedValue_ to _mappedValue_.[[Value]].
1. Else, let _mappedValue_ be _nextValue_.
1. Let _defineStatus_ be CreateDataPropertyOrThrow(_A_, _Pk_, _mappedValue_).
1. If _defineStatus_ is an abrupt completion, return ? AsyncIteratorClose(_iteratorRecord_, _defineStatus_).
1. Let _mappedValue_ be ? Call(_mapfn_, _thisArg_, &laquo; _kValue_, 𝔽(_k_) &raquo;).
1. Else, let _mappedValue_ be _kValue_.
1. Perform ? Set(_targetObj_, _Pk_, _mappedValue_, *true*).
1. Set _k_ to _k_ + 1.
1. NOTE: _items_ is not an AsyncIterable or Iterable so assume it is an array-like object.
1. Let _arrayLike_ be ! ToObject(_items_).
1. Assert: _values_ is now an empty List.
1. Return _targetObj_.
1. NOTE: _source_ is not an Iterable so assume it is already an array-like object.
1. Let _arrayLike_ be ! ToObject(_source_).
1. Let _len_ be ? LengthOfArrayLike(_arrayLike_).
1. If IsConstructor(_C_) is *true*, then
1. Let _A_ be ? Construct(_C_, &laquo; 𝔽(_len_) &raquo;).
1. Else,
1. Let _A_ be ? ArrayCreate(_len_).
1. Let _targetObj_ be ? TypedArrayCreate(_C_, &laquo; 𝔽(_len_) &raquo;).
1. Let _k_ be 0.
1. Repeat, while _k_ &lt; _len_,
1. Let _Pk_ be ! ToString(𝔽(_k_)).
1. Let _kValue_ be ? Get(_arrayLike_, _Pk_).
1. If _mapping_ is *true*, then
1. Let _mappedValue_ be ? Call(_mapfn_, _thisArg_, &laquo; _kValue_, 𝔽(_k_) &raquo;).
1. Else, let _mappedValue_ be _kValue_.
1. Perform ? CreateDataPropertyOrThrow(_A_, _Pk_, _mappedValue_).
1. Perform ? Set(_targetObj_, _Pk_, _mappedValue_, *true*).
1. Set _k_ to _k_ + 1.
1. Perform ? Set(_A_, *"length"*, 𝔽(_len_), *true*).
1. Return _A_.
1. Return _targetObj_.
1. Perform AsyncFunctionStart(promiseCapability, _fromAsyncClosure_).
1. Return Completion { [[Type]]: ~return~, [[Value]]: _promiseCapability_.[[Promise]], [[Target]]: ~empty~ }.
</emu-alg>
<emu-note>
<p>The `fromAsync` function is an intentionally generic factory method; it does not require that its *this* value be the Array constructor. Therefore it can be transferred to or inherited by any other constructors that may be called with a single numeric argument.</p>
</emu-note>
</emu-clause>
</emu-clause>
</emu-clause>
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