src/third_party/v8/src/builtins/typed-array-from.tq - cobalt - Git at Google

 // Copyright 2019 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.

 #include 'src/builtins/builtins-typed-array-gen.h'

 namespace typed_array {
 const kBuiltinNameFrom: constexpr string = '%TypedArray%.from';

 type BuiltinsName extends int31 constexpr 'Builtins::Name';
 const kTypedArrayPrototypeValues: constexpr BuiltinsName
     generates 'Builtins::kTypedArrayPrototypeValues';
 const kArrayPrototypeValues: constexpr BuiltinsName
     generates 'Builtins::kArrayPrototypeValues';

 extern builtin IterableToList(implicit context: Context)(JSAny, JSAny): JSArray;

 // %TypedArray%.from ( source [ , mapfn [ , thisArg ] ] )
 // https://tc39.github.io/ecma262/#sec-%typedarray%.from
 transitioning javascript builtin
 TypedArrayFrom(js-implicit context: NativeContext, receiver: JSAny)(
     ...arguments): JSTypedArray {
   try {
     const source: JSAny = arguments[0];
     const mapfnObj: JSAny = arguments[1];
     const thisArg = arguments[2];

     // 1. Let C be the this value.
     // 2. If IsConstructor(C) is false, throw a TypeError exception.
     const constructor = Cast<Constructor>(receiver) otherwise NotConstructor;

     // 3. If mapfn is undefined, then let mapping be false.
     // 4. Else,
     //   a. If IsCallable(mapfn) is false, throw a TypeError exception.
     //   b. Let mapping be true.
     const mapping: bool = mapfnObj != Undefined;
     if (mapping && !Is<Callable>(mapfnObj)) deferred {
         ThrowTypeError(MessageTemplate::kCalledNonCallable, mapfnObj);
       }

     // We split up this builtin differently to the way it is written in the
     // spec. We already have great code in the elements accessor for copying
     // from a JSArray into a TypedArray, so we use that when possible. We only
     // avoid calling into the elements accessor when we have a mapping
     // function, because we can't handle that. Here, presence of a mapping
     // function is the slow path. We also combine the two different loops in
     // the specification (starting at 7.e and 13) because they are essentially
     // identical. We also save on code-size this way.

     let finalLength: uintptr;
     let finalSource: JSAny;

     try {
       // 5. Let usingIterator be ? GetMethod(source, @@iterator).
       // TODO(v8:8906): Use iterator::GetIteratorMethod() once it supports
       // labels.
       const usingIterator = GetMethod(source, IteratorSymbolConstant())
           otherwise IteratorIsUndefined, IteratorNotCallable;

       try {
         // TypedArrays and JSArrays have iterators, so normally we would go
         // through the IterableToList case below, which would convert the
         // source to a JSArray (boxing the values if they won't fit in a Smi).
         //
         // However, if we can guarantee that the source object has the
         // built-in iterator and that the %ArrayIteratorPrototype%.next method
         // has not been overridden, then we know the behavior of the iterator:
         // returning the values in the TypedArray sequentially from index 0 to
         // length-1.
         //
         // In this case, we can avoid creating the intermediate array and the
         // associated HeapNumbers, and use the fast path in
         // TypedArrayCopyElements which uses the same ordering as the default
         // iterator.
         //
         // Drop through to the default check_iterator behavior if any of these
         // checks fail.

         // If there is a mapping, we need to gather the values from the
         // iterables before applying the mapping.
         if (mapping) goto UseUserProvidedIterator;

         const iteratorFn =
             Cast<JSFunction>(usingIterator) otherwise UseUserProvidedIterator;

         // Check that the ArrayIterator prototype's "next" method hasn't been
         // overridden.
         if (IsArrayIteratorProtectorCellInvalid()) goto UseUserProvidedIterator;

         typeswitch (source) {
           case (sourceArray: JSArray): {
             // Check that the iterator function is exactly
             // Builtins::kArrayPrototypeValues.
             if (!TaggedEqual(
                     iteratorFn.shared_function_info.function_data,
                     SmiConstant(kArrayPrototypeValues))) {
               goto UseUserProvidedIterator;
             }

             // Source is a JSArray with unmodified iterator behavior. Use the
             // source object directly, taking advantage of the special-case code
             // in TypedArrayCopyElements
             finalLength = Convert<uintptr>(sourceArray.length);
             finalSource = source;
           }
           case (sourceTypedArray: JSTypedArray): {
             const sourceBuffer = sourceTypedArray.buffer;
             if (IsDetachedBuffer(sourceBuffer)) goto UseUserProvidedIterator;

             // Check that the iterator function is exactly
             // Builtins::kTypedArrayPrototypeValues.
             if (!TaggedEqual(
                     iteratorFn.shared_function_info.function_data,
                     SmiConstant(kTypedArrayPrototypeValues)))
               goto UseUserProvidedIterator;

             // Source is a TypedArray with unmodified iterator behavior. Use the
             // source object directly, taking advantage of the special-case code
             // in TypedArrayCopyElements
             finalLength = sourceTypedArray.length;
             finalSource = source;
           }
           case (Object): {
             goto UseUserProvidedIterator;
           }
         }
       } label UseUserProvidedIterator {
         // 6. If usingIterator is not undefined, then
         //  a. Let values be ? IterableToList(source, usingIterator).
         //  b. Let len be the number of elements in values.
         const values: JSArray = IterableToList(source, usingIterator);

         finalLength = Convert<uintptr>(values.length);
         finalSource = values;
       }
     } label IteratorIsUndefined {
       // 7. NOTE: source is not an Iterable so assume it is already an
       // array-like object.

       // 8. Let arrayLike be ! ToObject(source).
       const arrayLike: JSReceiver = ToObject_Inline(context, source);

       // 9. Let len be ? LengthOfArrayLike(arrayLike).
       const length = GetLengthProperty(arrayLike);

       try {
         finalLength = ChangeSafeIntegerNumberToUintPtr(length)
             otherwise IfInvalidLength;
         finalSource = arrayLike;
       } label IfInvalidLength deferred {
         ThrowRangeError(MessageTemplate::kInvalidTypedArrayLength, length);
       }
     } label IteratorNotCallable(_value: JSAny) deferred {
       ThrowTypeError(MessageTemplate::kIteratorSymbolNonCallable);
     }

     const finalLengthNum = Convert<Number>(finalLength);

     // 6c/10. Let targetObj be ? TypedArrayCreate(C, «len»).
     const targetObj =
         TypedArrayCreateByLength(constructor, finalLengthNum, kBuiltinNameFrom);

     if (!mapping) {
       // Fast path.
       if (finalLength != 0) {
         // Call runtime.
         TypedArrayCopyElements(context, targetObj, finalSource, finalLengthNum);
       }
       return targetObj;
     }
     // Slow path.

     const mapfn: Callable = Cast<Callable>(mapfnObj) otherwise unreachable;
     const accessor: TypedArrayAccessor =
         GetTypedArrayAccessor(targetObj.elements_kind);

     // 6d-6e and 11-12.
     // 11. Let k be 0.
     // 12. Repeat, while k < len
     for (let k: uintptr = 0; k < finalLength; k++) {
       // 12a. Let Pk be ! ToString(k).
       const kNum = Convert<Number>(k);

       // 12b. Let kValue be ? Get(arrayLike, Pk).
       const kValue: JSAny = GetProperty(finalSource, kNum);

       let mappedValue: JSAny;
       // 12c. If mapping is true, then
       if (mapping) {
         // i. Let mappedValue be ? Call(mapfn, T, « kValue, k »).
         mappedValue = Call(context, mapfn, thisArg, kValue, kNum);
       } else {
         // 12d. Else, let mappedValue be kValue.
         mappedValue = kValue;
       }

       // 12e. Perform ? Set(targetObj, Pk, mappedValue, true).
       // Buffer may be detached during executing ToNumber/ToBigInt.
       accessor.StoreJSAny(context, targetObj, k, mappedValue)
           otherwise IfDetached;

       // 12f. Set k to k + 1. (done by the loop).
     }
     return targetObj;
   } label NotConstructor deferred {
     ThrowTypeError(MessageTemplate::kNotConstructor, receiver);
   } label IfDetached deferred {
     ThrowTypeError(MessageTemplate::kDetachedOperation, kBuiltinNameFrom);
   }
 }
 }
	// Copyright 2019 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.

	#include 'src/builtins/builtins-typed-array-gen.h'

	namespace typed_array {
	const kBuiltinNameFrom: constexpr string = '%TypedArray%.from';

	type BuiltinsName extends int31 constexpr 'Builtins::Name';
	const kTypedArrayPrototypeValues: constexpr BuiltinsName
	generates 'Builtins::kTypedArrayPrototypeValues';
	const kArrayPrototypeValues: constexpr BuiltinsName
	generates 'Builtins::kArrayPrototypeValues';

	extern builtin IterableToList(implicit context: Context)(JSAny, JSAny): JSArray;

	// %TypedArray%.from ( source [ , mapfn [ , thisArg ] ] )
	// https://tc39.github.io/ecma262/#sec-%typedarray%.from
	transitioning javascript builtin
	TypedArrayFrom(js-implicit context: NativeContext, receiver: JSAny)(
	...arguments): JSTypedArray {
	try {
	const source: JSAny = arguments[0];
	const mapfnObj: JSAny = arguments[1];
	const thisArg = arguments[2];

	// 1. Let C be the this value.
	// 2. If IsConstructor(C) is false, throw a TypeError exception.
	const constructor = Cast<Constructor>(receiver) otherwise NotConstructor;

	// 3. If mapfn is undefined, then let mapping be false.
	// 4. Else,
	// a. If IsCallable(mapfn) is false, throw a TypeError exception.
	// b. Let mapping be true.
	const mapping: bool = mapfnObj != Undefined;
	if (mapping && !Is<Callable>(mapfnObj)) deferred {
	ThrowTypeError(MessageTemplate::kCalledNonCallable, mapfnObj);
	}

	// We split up this builtin differently to the way it is written in the
	// spec. We already have great code in the elements accessor for copying
	// from a JSArray into a TypedArray, so we use that when possible. We only
	// avoid calling into the elements accessor when we have a mapping
	// function, because we can't handle that. Here, presence of a mapping
	// function is the slow path. We also combine the two different loops in
	// the specification (starting at 7.e and 13) because they are essentially
	// identical. We also save on code-size this way.

	let finalLength: uintptr;
	let finalSource: JSAny;

	try {
	// 5. Let usingIterator be ? GetMethod(source, @@iterator).
	// TODO(v8:8906): Use iterator::GetIteratorMethod() once it supports
	// labels.
	const usingIterator = GetMethod(source, IteratorSymbolConstant())
	otherwise IteratorIsUndefined, IteratorNotCallable;

	try {
	// TypedArrays and JSArrays have iterators, so normally we would go
	// through the IterableToList case below, which would convert the
	// source to a JSArray (boxing the values if they won't fit in a Smi).
	//
	// However, if we can guarantee that the source object has the
	// built-in iterator and that the %ArrayIteratorPrototype%.next method
	// has not been overridden, then we know the behavior of the iterator:
	// returning the values in the TypedArray sequentially from index 0 to
	// length-1.
	//
	// In this case, we can avoid creating the intermediate array and the
	// associated HeapNumbers, and use the fast path in
	// TypedArrayCopyElements which uses the same ordering as the default
	// iterator.
	//
	// Drop through to the default check_iterator behavior if any of these
	// checks fail.

	// If there is a mapping, we need to gather the values from the
	// iterables before applying the mapping.
	if (mapping) goto UseUserProvidedIterator;

	const iteratorFn =
	Cast<JSFunction>(usingIterator) otherwise UseUserProvidedIterator;

	// Check that the ArrayIterator prototype's "next" method hasn't been
	// overridden.
	if (IsArrayIteratorProtectorCellInvalid()) goto UseUserProvidedIterator;

	typeswitch (source) {
	case (sourceArray: JSArray): {
	// Check that the iterator function is exactly
	// Builtins::kArrayPrototypeValues.
	if (!TaggedEqual(
	iteratorFn.shared_function_info.function_data,
	SmiConstant(kArrayPrototypeValues))) {
	goto UseUserProvidedIterator;
	}

	// Source is a JSArray with unmodified iterator behavior. Use the
	// source object directly, taking advantage of the special-case code
	// in TypedArrayCopyElements
	finalLength = Convert<uintptr>(sourceArray.length);
	finalSource = source;
	}
	case (sourceTypedArray: JSTypedArray): {
	const sourceBuffer = sourceTypedArray.buffer;
	if (IsDetachedBuffer(sourceBuffer)) goto UseUserProvidedIterator;

	// Check that the iterator function is exactly
	// Builtins::kTypedArrayPrototypeValues.
	if (!TaggedEqual(
	iteratorFn.shared_function_info.function_data,
	SmiConstant(kTypedArrayPrototypeValues)))
	goto UseUserProvidedIterator;

	// Source is a TypedArray with unmodified iterator behavior. Use the
	// source object directly, taking advantage of the special-case code
	// in TypedArrayCopyElements
	finalLength = sourceTypedArray.length;
	finalSource = source;
	}
	case (Object): {
	goto UseUserProvidedIterator;
	}
	}
	} label UseUserProvidedIterator {
	// 6. If usingIterator is not undefined, then
	// a. Let values be ? IterableToList(source, usingIterator).
	// b. Let len be the number of elements in values.
	const values: JSArray = IterableToList(source, usingIterator);

	finalLength = Convert<uintptr>(values.length);
	finalSource = values;
	}
	} label IteratorIsUndefined {
	// 7. NOTE: source is not an Iterable so assume it is already an
	// array-like object.

	// 8. Let arrayLike be ! ToObject(source).
	const arrayLike: JSReceiver = ToObject_Inline(context, source);

	// 9. Let len be ? LengthOfArrayLike(arrayLike).
	const length = GetLengthProperty(arrayLike);

	try {
	finalLength = ChangeSafeIntegerNumberToUintPtr(length)
	otherwise IfInvalidLength;
	finalSource = arrayLike;
	} label IfInvalidLength deferred {
	ThrowRangeError(MessageTemplate::kInvalidTypedArrayLength, length);
	}
	} label IteratorNotCallable(_value: JSAny) deferred {
	ThrowTypeError(MessageTemplate::kIteratorSymbolNonCallable);
	}

	const finalLengthNum = Convert<Number>(finalLength);

	// 6c/10. Let targetObj be ? TypedArrayCreate(C, «len»).
	const targetObj =
	TypedArrayCreateByLength(constructor, finalLengthNum, kBuiltinNameFrom);

	if (!mapping) {
	// Fast path.
	if (finalLength != 0) {
	// Call runtime.
	TypedArrayCopyElements(context, targetObj, finalSource, finalLengthNum);
	}
	return targetObj;
	}
	// Slow path.

	const mapfn: Callable = Cast<Callable>(mapfnObj) otherwise unreachable;
	const accessor: TypedArrayAccessor =
	GetTypedArrayAccessor(targetObj.elements_kind);

	// 6d-6e and 11-12.
	// 11. Let k be 0.
	// 12. Repeat, while k < len
	for (let k: uintptr = 0; k < finalLength; k++) {
	// 12a. Let Pk be ! ToString(k).
	const kNum = Convert<Number>(k);

	// 12b. Let kValue be ? Get(arrayLike, Pk).
	const kValue: JSAny = GetProperty(finalSource, kNum);

	let mappedValue: JSAny;
	// 12c. If mapping is true, then
	if (mapping) {
	// i. Let mappedValue be ? Call(mapfn, T, « kValue, k »).
	mappedValue = Call(context, mapfn, thisArg, kValue, kNum);
	} else {
	// 12d. Else, let mappedValue be kValue.
	mappedValue = kValue;
	}

	// 12e. Perform ? Set(targetObj, Pk, mappedValue, true).
	// Buffer may be detached during executing ToNumber/ToBigInt.
	accessor.StoreJSAny(context, targetObj, k, mappedValue)
	otherwise IfDetached;

	// 12f. Set k to k + 1. (done by the loop).
	}
	return targetObj;
	} label NotConstructor deferred {
	ThrowTypeError(MessageTemplate::kNotConstructor, receiver);
	} label IfDetached deferred {
	ThrowTypeError(MessageTemplate::kDetachedOperation, kBuiltinNameFrom);
	}
	}
	}