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b84f8fb55b
Some of these are allocated upon initialization of the intrinsics, and some lazily, but in neither case the getters actually return a nullptr. This saves us a whole bunch of pointer dereferences (as NonnullGCPtr has an `operator T&()`), and also has the interesting side effect of forcing us to explicitly use the FunctionObject& overload of call(), as passing a NonnullGCPtr is ambigous - it could implicitly be turned into a Value _or_ a FunctionObject& (so we have to dereference manually).
120 lines
4.7 KiB
C++
120 lines
4.7 KiB
C++
/*
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* Copyright (c) 2020-2023, Linus Groh <linusg@serenityos.org>
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*
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* SPDX-License-Identifier: BSD-2-Clause
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*/
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#include <LibJS/Runtime/AbstractOperations.h>
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#include <LibJS/Runtime/ArrayBuffer.h>
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#include <LibJS/Runtime/ArrayBufferConstructor.h>
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#include <LibJS/Runtime/GlobalObject.h>
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namespace JS {
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ThrowCompletionOr<NonnullGCPtr<ArrayBuffer>> ArrayBuffer::create(Realm& realm, size_t byte_length)
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{
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auto buffer = ByteBuffer::create_zeroed(byte_length);
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if (buffer.is_error())
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return realm.vm().throw_completion<RangeError>(ErrorType::NotEnoughMemoryToAllocate, byte_length);
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return MUST_OR_THROW_OOM(realm.heap().allocate<ArrayBuffer>(realm, buffer.release_value(), realm.intrinsics().array_buffer_prototype()));
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}
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NonnullGCPtr<ArrayBuffer> ArrayBuffer::create(Realm& realm, ByteBuffer buffer)
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{
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return realm.heap().allocate<ArrayBuffer>(realm, move(buffer), realm.intrinsics().array_buffer_prototype()).release_allocated_value_but_fixme_should_propagate_errors();
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}
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NonnullGCPtr<ArrayBuffer> ArrayBuffer::create(Realm& realm, ByteBuffer* buffer)
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{
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return realm.heap().allocate<ArrayBuffer>(realm, buffer, realm.intrinsics().array_buffer_prototype()).release_allocated_value_but_fixme_should_propagate_errors();
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}
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ArrayBuffer::ArrayBuffer(ByteBuffer buffer, Object& prototype)
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: Object(ConstructWithPrototypeTag::Tag, prototype)
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, m_buffer(move(buffer))
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, m_detach_key(js_undefined())
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{
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}
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ArrayBuffer::ArrayBuffer(ByteBuffer* buffer, Object& prototype)
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: Object(ConstructWithPrototypeTag::Tag, prototype)
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, m_buffer(buffer)
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, m_detach_key(js_undefined())
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{
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}
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void ArrayBuffer::visit_edges(Cell::Visitor& visitor)
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{
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Base::visit_edges(visitor);
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visitor.visit(m_detach_key);
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}
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// 25.1.2.1 AllocateArrayBuffer ( constructor, byteLength ), https://tc39.es/ecma262/#sec-allocatearraybuffer
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ThrowCompletionOr<ArrayBuffer*> allocate_array_buffer(VM& vm, FunctionObject& constructor, size_t byte_length)
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{
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// 1. Let obj be ? OrdinaryCreateFromConstructor(constructor, "%ArrayBuffer.prototype%", « [[ArrayBufferData]], [[ArrayBufferByteLength]], [[ArrayBufferDetachKey]] »).
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auto obj = TRY(ordinary_create_from_constructor<ArrayBuffer>(vm, constructor, &Intrinsics::array_buffer_prototype, nullptr));
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// 2. Let block be ? CreateByteDataBlock(byteLength).
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auto block = ByteBuffer::create_zeroed(byte_length);
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if (block.is_error())
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return vm.throw_completion<RangeError>(ErrorType::NotEnoughMemoryToAllocate, byte_length);
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// 3. Set obj.[[ArrayBufferData]] to block.
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obj->set_buffer(block.release_value());
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// 4. Set obj.[[ArrayBufferByteLength]] to byteLength.
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// 5. Return obj.
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return obj.ptr();
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}
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// 25.1.2.3 DetachArrayBuffer ( arrayBuffer [ , key ] ), https://tc39.es/ecma262/#sec-detacharraybuffer
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ThrowCompletionOr<void> detach_array_buffer(VM& vm, ArrayBuffer& array_buffer, Optional<Value> key)
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{
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// 1. Assert: IsSharedArrayBuffer(arrayBuffer) is false.
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// FIXME: Check for shared buffer
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// 2. If key is not present, set key to undefined.
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if (!key.has_value())
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key = js_undefined();
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// 3. If SameValue(arrayBuffer.[[ArrayBufferDetachKey]], key) is false, throw a TypeError exception.
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if (!same_value(array_buffer.detach_key(), *key))
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return vm.throw_completion<TypeError>(ErrorType::DetachKeyMismatch, *key, array_buffer.detach_key());
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// 4. Set arrayBuffer.[[ArrayBufferData]] to null.
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// 5. Set arrayBuffer.[[ArrayBufferByteLength]] to 0.
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array_buffer.detach_buffer();
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// 6. Return unused.
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return {};
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}
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// 25.1.2.4 CloneArrayBuffer ( srcBuffer, srcByteOffset, srcLength, cloneConstructor ), https://tc39.es/ecma262/#sec-clonearraybuffer
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ThrowCompletionOr<ArrayBuffer*> clone_array_buffer(VM& vm, ArrayBuffer& source_buffer, size_t source_byte_offset, size_t source_length)
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{
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auto& realm = *vm.current_realm();
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// 1. Assert: IsDetachedBuffer(srcBuffer) is false.
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VERIFY(!source_buffer.is_detached());
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// 2. Let targetBuffer be ? AllocateArrayBuffer(%ArrayBuffer%, srcLength).
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auto* target_buffer = TRY(allocate_array_buffer(vm, realm.intrinsics().array_buffer_constructor(), source_length));
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// 3. Let srcBlock be srcBuffer.[[ArrayBufferData]].
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auto& source_block = source_buffer.buffer();
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// 4. Let targetBlock be targetBuffer.[[ArrayBufferData]].
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auto& target_block = target_buffer->buffer();
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// 5. Perform CopyDataBlockBytes(targetBlock, 0, srcBlock, srcByteOffset, srcLength).
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// FIXME: This is only correct for ArrayBuffers, once SharedArrayBuffer is implemented, the AO has to be implemented
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target_block.overwrite(0, source_block.offset_pointer(source_byte_offset), source_length);
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// 6. Return targetBuffer.
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return target_buffer;
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}
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}
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