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https://github.com/LadybirdBrowser/ladybird
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5adfd1c43a
Previously we were inconsistent by generating code for enum definitions but not generating code for dictionaries. With future changes to the IDL generator to expose helpers to convert to and from IDL values this produced circular depdendencies. To solve this problem, also generate the dictionary definitions in bindings headers.
122 lines
6.5 KiB
C++
122 lines
6.5 KiB
C++
/*
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* Copyright (c) 2024, Shannon Booth <shannon@serenityos.org>
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* Copyright (c) 2025, Tim Ledbetter <tim.ledbetter@ladybird.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/TypedArray.h>
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#include <LibWeb/Bindings/Intrinsics.h>
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#include <LibWeb/Bindings/PeriodicWave.h>
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#include <LibWeb/WebAudio/PeriodicWave.h>
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#include <LibWeb/WebIDL/ExceptionOr.h>
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namespace Web::WebAudio {
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GC_DEFINE_ALLOCATOR(PeriodicWave);
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// https://webaudio.github.io/web-audio-api/#dom-periodicwave-periodicwave
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WebIDL::ExceptionOr<GC::Ref<PeriodicWave>> PeriodicWave::construct_impl(JS::Realm& realm, GC::Ref<BaseAudioContext>, Bindings::PeriodicWaveOptions const& options)
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{
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// 1. Let p be a new PeriodicWave object. Let [[real]] and [[imag]] be two internal slots of type Float32Array, and let [[normalize]] be an internal slot.
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auto p = realm.create<PeriodicWave>(realm);
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// 2. Process options according to one of the following cases:
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{
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// 1. If both options.real and options.imag are present
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if (options.real.has_value() && options.imag.has_value()) {
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// 1. If the lengths of options.real and options.imag are different or if either length is less than 2, throw an IndexSizeError and abort this algorithm.
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if (options.real.value().size() != options.imag.value().size() || options.real.value().size() < 2)
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return WebIDL::IndexSizeError::create(realm, "Real and imaginary arrays must have the same length and contain at least 2 elements"_utf16);
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// 2. Set [[real]] and [[imag]] to new arrays with the same length as options.real.
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// 3. Copy all elements from options.real to [[real]] and options.imag to [[imag]].
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auto real_byte_buffer = TRY_OR_THROW_OOM(realm.vm(), ByteBuffer::copy({ options.real->data(), options.real->size() * sizeof(float) }));
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auto real_array_buffer = JS::ArrayBuffer::create(realm, move(real_byte_buffer));
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p->m_real = JS::Float32Array::create(realm, options.real->size(), *real_array_buffer);
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auto imag_byte_buffer = TRY_OR_THROW_OOM(realm.vm(), ByteBuffer::copy({ options.imag->data(), options.real->size() * sizeof(float) }));
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auto imag_array_buffer = JS::ArrayBuffer::create(realm, move(imag_byte_buffer));
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p->m_imag = JS::Float32Array::create(realm, options.real->size(), *imag_array_buffer);
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}
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// 2. If only options.real is present
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else if (options.real.has_value()) {
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// 1. If length of options.real is less than 2, throw an IndexSizeError and abort this algorithm
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if (options.real.value().size() < 2)
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return WebIDL::IndexSizeError::create(realm, "Real array must contain at least 2 elements"_utf16);
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// 2. Set [[real]] and [[imag]] to arrays with the same length as options.real
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// 3. Copy options.real to [[real]] and set [[imag]] to all zeros.
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auto real_byte_buffer = TRY_OR_THROW_OOM(realm.vm(), ByteBuffer::copy({ options.real->data(), options.real->size() * sizeof(float) }));
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auto real_array_buffer = JS::ArrayBuffer::create(realm, move(real_byte_buffer));
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p->m_real = JS::Float32Array::create(realm, options.real->size(), *real_array_buffer);
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auto imag_byte_buffer = TRY_OR_THROW_OOM(realm.vm(), ByteBuffer::create_zeroed(options.real->size() * sizeof(float)));
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auto imag_array_buffer = JS::ArrayBuffer::create(realm, move(imag_byte_buffer));
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p->m_imag = JS::Float32Array::create(realm, options.real->size(), *imag_array_buffer);
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}
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// 3. If only options.imag is present
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else if (options.imag.has_value()) {
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// 1. If length of options.imag is less than 2, throw an IndexSizeError and abort this algorithm.
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if (options.imag.value().size() < 2)
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return WebIDL::IndexSizeError::create(realm, "Imaginary array must contain at least 2 elements"_utf16);
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// 2. Set [[real]] and [[imag]] to arrays with the same length as options.imag.
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// 3. Copy options.imag to [[imag]] and set [[real]] to all zeros.
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auto real_byte_buffer = TRY_OR_THROW_OOM(realm.vm(), ByteBuffer::create_zeroed(options.imag->size() * sizeof(float)));
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auto real_array_buffer = JS::ArrayBuffer::create(realm, move(real_byte_buffer));
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p->m_real = JS::Float32Array::create(realm, options.imag->size(), *real_array_buffer);
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auto imag_byte_buffer = TRY_OR_THROW_OOM(realm.vm(), ByteBuffer::copy({ options.imag->data(), options.imag->size() * sizeof(float) }));
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auto imag_array_buffer = JS::ArrayBuffer::create(realm, move(imag_byte_buffer));
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p->m_imag = JS::Float32Array::create(realm, options.imag->size(), *imag_array_buffer);
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}
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// 4. Otherwise
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else {
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// 1. Set [[real]] and [[imag]] to zero-filled arrays of length 2.
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auto real_byte_buffer = TRY_OR_THROW_OOM(realm.vm(), ByteBuffer::create_zeroed(2 * sizeof(float)));
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auto real_array_buffer = JS::ArrayBuffer::create(realm, move(real_byte_buffer));
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p->m_real = JS::Float32Array::create(realm, 2, *real_array_buffer);
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auto imag_byte_buffer = TRY_OR_THROW_OOM(realm.vm(), ByteBuffer::create_zeroed(2 * sizeof(float)));
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auto imag_array_buffer = JS::ArrayBuffer::create(realm, move(imag_byte_buffer));
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p->m_imag = JS::Float32Array::create(realm, 2, *imag_array_buffer);
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// 2. Set element at index 1 of [[imag]] to 1.
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p->m_imag->set_value_in_buffer(1, JS::Value { 1 }, JS::ArrayBuffer::Order::SeqCst);
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}
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}
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// 3. Set element at index 0 of both [[real]] and [[imag]] to 0. (This sets the DC component to 0.)
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p->m_real->set_value_in_buffer(0, JS::Value { 0 }, JS::ArrayBuffer::Order::SeqCst);
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p->m_imag->set_value_in_buffer(0, JS::Value { 0 }, JS::ArrayBuffer::Order::SeqCst);
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// 4. Initialize [[normalize]] to the inverse of the disableNormalization attribute of the PeriodicWaveConstraints on the PeriodicWaveOptions.
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p->m_normalize = !options.disable_normalization;
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// 5. Return p.
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return p;
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}
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PeriodicWave::PeriodicWave(JS::Realm& realm)
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: Base(realm)
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{
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}
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PeriodicWave::~PeriodicWave() = default;
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void PeriodicWave::initialize(JS::Realm& realm)
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{
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WEB_SET_PROTOTYPE_FOR_INTERFACE(PeriodicWave);
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Base::initialize(realm);
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}
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void PeriodicWave::visit_edges(Cell::Visitor& visitor)
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{
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Base::visit_edges(visitor);
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visitor.visit(m_real);
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visitor.visit(m_imag);
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}
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}
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