зеркало из https://github.com/mozilla/gecko-dev.git
364 строки
12 KiB
C++
364 строки
12 KiB
C++
/* -*- Mode: C++; tab-width: 8; indent-tabs-mode: nil; c-basic-offset: 2 -*-
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* vim: set ts=8 sts=2 et sw=2 tw=80:
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* This Source Code Form is subject to the terms of the Mozilla Public
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* License, v. 2.0. If a copy of the MPL was not distributed with this
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* file, You can obtain one at http://mozilla.org/MPL/2.0/. */
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#ifndef js_GCVector_h
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#define js_GCVector_h
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#include "mozilla/Assertions.h" // MOZ_ASSERT
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#include "mozilla/Attributes.h" // MOZ_STACK_CLASS
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#include "mozilla/MemoryReporting.h" // MallocSizeOf
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#include "mozilla/Span.h"
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#include "mozilla/Vector.h"
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#include <stddef.h> // size_t
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#include <utility> // forward, move
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#include "js/AllocPolicy.h"
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#include "js/GCPolicyAPI.h"
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#include "js/RootingAPI.h"
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class JSTracer;
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struct JSContext;
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namespace JS {
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// A GCVector is a Vector with an additional trace method that knows how
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// to visit all of the items stored in the Vector. For vectors that contain GC
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// things, this is usually more convenient than manually iterating and marking
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// the contents.
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//
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// Most types of GC pointers as keys and values can be traced with no extra
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// infrastructure. For structs and non-gc-pointer members, ensure that there is
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// a specialization of GCPolicy<T> with an appropriate trace method available
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// to handle the custom type. Generic helpers can be found in
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// js/public/TracingAPI.h.
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//
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// Note that although this Vector's trace will deal correctly with moved items,
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// it does not itself know when to barrier or trace items. To function properly
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// it must either be used with Rooted, or barriered and traced manually.
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template <typename T, size_t MinInlineCapacity = 0,
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typename AllocPolicy = js::TempAllocPolicy>
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class GCVector {
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mozilla::Vector<T, MinInlineCapacity, AllocPolicy> vector;
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public:
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using ElementType = T;
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explicit GCVector(AllocPolicy alloc = AllocPolicy())
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: vector(std::move(alloc)) {}
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GCVector(GCVector&& vec) : vector(std::move(vec.vector)) {}
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GCVector& operator=(GCVector&& vec) {
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vector = std::move(vec.vector);
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return *this;
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}
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size_t length() const { return vector.length(); }
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bool empty() const { return vector.empty(); }
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size_t capacity() const { return vector.capacity(); }
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T* begin() { return vector.begin(); }
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const T* begin() const { return vector.begin(); }
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T* end() { return vector.end(); }
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const T* end() const { return vector.end(); }
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T& operator[](size_t i) { return vector[i]; }
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const T& operator[](size_t i) const { return vector[i]; }
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T& back() { return vector.back(); }
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const T& back() const { return vector.back(); }
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operator mozilla::Span<T>() { return vector; }
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operator mozilla::Span<const T>() const { return vector; }
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bool initCapacity(size_t cap) { return vector.initCapacity(cap); }
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[[nodiscard]] bool reserve(size_t req) { return vector.reserve(req); }
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void shrinkBy(size_t amount) { return vector.shrinkBy(amount); }
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void shrinkTo(size_t newLen) { return vector.shrinkTo(newLen); }
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[[nodiscard]] bool growBy(size_t amount) { return vector.growBy(amount); }
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[[nodiscard]] bool resize(size_t newLen) { return vector.resize(newLen); }
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void clear() { return vector.clear(); }
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void clearAndFree() { return vector.clearAndFree(); }
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template <typename U>
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bool append(U&& item) {
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return vector.append(std::forward<U>(item));
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}
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void erase(T* it) { vector.erase(it); }
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void erase(T* begin, T* end) { vector.erase(begin, end); }
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template <typename Pred>
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void eraseIf(Pred pred) {
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vector.eraseIf(pred);
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}
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template <typename U>
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void eraseIfEqual(const U& u) {
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vector.eraseIfEqual(u);
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}
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template <typename... Args>
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[[nodiscard]] bool emplaceBack(Args&&... args) {
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return vector.emplaceBack(std::forward<Args>(args)...);
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}
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template <typename... Args>
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void infallibleEmplaceBack(Args&&... args) {
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vector.infallibleEmplaceBack(std::forward<Args>(args)...);
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}
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template <typename U>
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void infallibleAppend(U&& aU) {
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return vector.infallibleAppend(std::forward<U>(aU));
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}
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void infallibleAppendN(const T& aT, size_t aN) {
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return vector.infallibleAppendN(aT, aN);
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}
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template <typename U>
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void infallibleAppend(const U* aBegin, const U* aEnd) {
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return vector.infallibleAppend(aBegin, aEnd);
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}
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template <typename U>
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void infallibleAppend(const U* aBegin, size_t aLength) {
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return vector.infallibleAppend(aBegin, aLength);
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}
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template <typename U>
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[[nodiscard]] bool appendAll(const U& aU) {
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return vector.append(aU.begin(), aU.end());
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}
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template <typename T2, size_t MinInlineCapacity2, typename AllocPolicy2>
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[[nodiscard]] bool appendAll(
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GCVector<T2, MinInlineCapacity2, AllocPolicy2>&& aU) {
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return vector.appendAll(aU.begin(), aU.end());
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}
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[[nodiscard]] bool appendN(const T& val, size_t count) {
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return vector.appendN(val, count);
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}
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template <typename U>
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[[nodiscard]] bool append(const U* aBegin, const U* aEnd) {
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return vector.append(aBegin, aEnd);
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}
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template <typename U>
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[[nodiscard]] bool append(const U* aBegin, size_t aLength) {
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return vector.append(aBegin, aLength);
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}
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void popBack() { return vector.popBack(); }
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T popCopy() { return vector.popCopy(); }
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size_t sizeOfExcludingThis(mozilla::MallocSizeOf mallocSizeOf) const {
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return vector.sizeOfExcludingThis(mallocSizeOf);
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}
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size_t sizeOfIncludingThis(mozilla::MallocSizeOf mallocSizeOf) const {
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return vector.sizeOfIncludingThis(mallocSizeOf);
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}
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void trace(JSTracer* trc) {
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for (auto& elem : vector) {
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GCPolicy<T>::trace(trc, &elem, "vector element");
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}
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}
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bool traceWeak(JSTracer* trc) {
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mutableEraseIf(
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[trc](T& elem) { return !GCPolicy<T>::traceWeak(trc, &elem); });
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return !empty();
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}
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// Like eraseIf, but may mutate the contents of the vector.
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template <typename Pred>
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void mutableEraseIf(Pred pred) {
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T* src = begin();
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T* dst = begin();
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while (src != end()) {
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if (!pred(*src)) {
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if (src != dst) {
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*dst = std::move(*src);
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}
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dst++;
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}
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src++;
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}
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MOZ_ASSERT(dst <= end());
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shrinkBy(end() - dst);
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}
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};
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// AllocPolicy is optional. It has a default value declared in TypeDecls.h
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template <typename T, typename AllocPolicy>
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class MOZ_STACK_CLASS StackGCVector : public GCVector<T, 8, AllocPolicy> {
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public:
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using Base = GCVector<T, 8, AllocPolicy>;
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private:
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// Inherit constructor from GCVector.
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using Base::Base;
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};
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} // namespace JS
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namespace js {
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template <typename Wrapper, typename T, size_t Capacity, typename AllocPolicy>
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class WrappedPtrOperations<JS::GCVector<T, Capacity, AllocPolicy>, Wrapper> {
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using Vec = JS::GCVector<T, Capacity, AllocPolicy>;
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const Vec& vec() const { return static_cast<const Wrapper*>(this)->get(); }
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public:
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const AllocPolicy& allocPolicy() const { return vec().allocPolicy(); }
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size_t length() const { return vec().length(); }
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bool empty() const { return vec().empty(); }
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size_t capacity() const { return vec().capacity(); }
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const T* begin() const { return vec().begin(); }
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const T* end() const { return vec().end(); }
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const T& back() const { return vec().back(); }
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JS::Handle<T> operator[](size_t aIndex) const {
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return JS::Handle<T>::fromMarkedLocation(&vec().operator[](aIndex));
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}
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};
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template <typename Wrapper, typename T, size_t Capacity, typename AllocPolicy>
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class MutableWrappedPtrOperations<JS::GCVector<T, Capacity, AllocPolicy>,
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Wrapper>
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: public WrappedPtrOperations<JS::GCVector<T, Capacity, AllocPolicy>,
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Wrapper> {
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using Vec = JS::GCVector<T, Capacity, AllocPolicy>;
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const Vec& vec() const { return static_cast<const Wrapper*>(this)->get(); }
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Vec& vec() { return static_cast<Wrapper*>(this)->get(); }
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public:
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const AllocPolicy& allocPolicy() const { return vec().allocPolicy(); }
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AllocPolicy& allocPolicy() { return vec().allocPolicy(); }
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const T* begin() const { return vec().begin(); }
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T* begin() { return vec().begin(); }
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const T* end() const { return vec().end(); }
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T* end() { return vec().end(); }
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const T& back() const { return vec().back(); }
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T& back() { return vec().back(); }
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JS::Handle<T> operator[](size_t aIndex) const {
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return JS::Handle<T>::fromMarkedLocation(&vec().operator[](aIndex));
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}
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JS::MutableHandle<T> operator[](size_t aIndex) {
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return JS::MutableHandle<T>::fromMarkedLocation(&vec().operator[](aIndex));
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}
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[[nodiscard]] bool initCapacity(size_t aRequest) {
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return vec().initCapacity(aRequest);
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}
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[[nodiscard]] bool reserve(size_t aRequest) {
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return vec().reserve(aRequest);
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}
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void shrinkBy(size_t aIncr) { vec().shrinkBy(aIncr); }
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[[nodiscard]] bool growBy(size_t aIncr) { return vec().growBy(aIncr); }
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[[nodiscard]] bool resize(size_t aNewLength) {
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return vec().resize(aNewLength);
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}
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void clear() { vec().clear(); }
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void clearAndFree() { vec().clearAndFree(); }
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template <typename U>
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[[nodiscard]] bool append(U&& aU) {
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return vec().append(std::forward<U>(aU));
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}
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template <typename... Args>
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[[nodiscard]] bool emplaceBack(Args&&... aArgs) {
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return vec().emplaceBack(std::forward<Args>(aArgs)...);
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}
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template <typename... Args>
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void infallibleEmplaceBack(Args&&... args) {
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vec().infallibleEmplaceBack(std::forward<Args>(args)...);
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}
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template <typename U>
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[[nodiscard]] bool appendAll(U&& aU) {
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return vec().appendAll(aU);
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}
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[[nodiscard]] bool appendN(const T& aT, size_t aN) {
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return vec().appendN(aT, aN);
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}
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template <typename U>
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[[nodiscard]] bool append(const U* aBegin, const U* aEnd) {
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return vec().append(aBegin, aEnd);
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}
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template <typename U>
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[[nodiscard]] bool append(const U* aBegin, size_t aLength) {
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return vec().append(aBegin, aLength);
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}
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template <typename U>
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void infallibleAppend(U&& aU) {
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vec().infallibleAppend(std::forward<U>(aU));
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}
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void infallibleAppendN(const T& aT, size_t aN) {
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vec().infallibleAppendN(aT, aN);
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}
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template <typename U>
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void infallibleAppend(const U* aBegin, const U* aEnd) {
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vec().infallibleAppend(aBegin, aEnd);
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}
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template <typename U>
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void infallibleAppend(const U* aBegin, size_t aLength) {
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vec().infallibleAppend(aBegin, aLength);
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}
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void popBack() { vec().popBack(); }
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T popCopy() { return vec().popCopy(); }
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void erase(T* aT) { vec().erase(aT); }
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void erase(T* aBegin, T* aEnd) { vec().erase(aBegin, aEnd); }
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template <typename Pred>
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void eraseIf(Pred pred) {
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vec().eraseIf(pred);
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}
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template <typename U>
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void eraseIfEqual(const U& u) {
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vec().eraseIfEqual(u);
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}
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};
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template <typename Wrapper, typename T, typename AllocPolicy>
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class WrappedPtrOperations<JS::StackGCVector<T, AllocPolicy>, Wrapper>
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: public WrappedPtrOperations<
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typename JS::StackGCVector<T, AllocPolicy>::Base, Wrapper> {};
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template <typename Wrapper, typename T, typename AllocPolicy>
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class MutableWrappedPtrOperations<JS::StackGCVector<T, AllocPolicy>, Wrapper>
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: public MutableWrappedPtrOperations<
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typename JS::StackGCVector<T, AllocPolicy>::Base, Wrapper> {};
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} // namespace js
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namespace JS {
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// An automatically rooted GCVector for stack use.
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template <typename T>
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class RootedVector : public Rooted<StackGCVector<T>> {
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using Vec = StackGCVector<T>;
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using Base = Rooted<Vec>;
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public:
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explicit RootedVector(JSContext* cx) : Base(cx, Vec(cx)) {}
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};
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// For use in rust code, an analog to RootedVector that doesn't require
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// instances to be destroyed in LIFO order.
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template <typename T>
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class PersistentRootedVector : public PersistentRooted<StackGCVector<T>> {
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using Vec = StackGCVector<T>;
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using Base = PersistentRooted<Vec>;
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public:
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explicit PersistentRootedVector(JSContext* cx) : Base(cx, Vec(cx)) {}
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};
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} // namespace JS
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#endif // js_GCVector_h
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