mirror of
https://github.com/mozilla/gecko-dev.git
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4354953b4f
Most of this patch (with the exception of dom/bindings/Codegen.py) was generated by the following bash script: #!/bin/bash function convert() { echo "Converting $1 to $2..." find . ! -wholename "*nsprpub*" \ ! -wholename "*security/nss*" \ ! -wholename "*/.hg*" \ ! -wholename "*/.git*" \ ! -wholename "obj-*" \ -type f \ \( -iname "*.cpp" \ -o -iname "*.h" \ -o -iname "*.cc" \ -o -iname "*.idl" \ -o -iname "*.ipdl" \ -o -iname "*.ipdlh" \ -o -iname "*.mm" \) | \ xargs -n 1 sed -i -e "s/\b$1\b/$2/g" } convert MOZ_DELETE '= delete'
478 lines
15 KiB
C++
478 lines
15 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 nsCOMArray_h__
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#define nsCOMArray_h__
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#include "mozilla/Attributes.h"
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#include "mozilla/MemoryReporting.h"
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#include "nsCycleCollectionNoteChild.h"
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#include "nsTArray.h"
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#include "nsISupports.h"
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// See below for the definition of nsCOMArray<T>
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// a class that's nsISupports-specific, so that we can contain the
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// work of this class in the XPCOM dll
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class nsCOMArray_base
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{
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friend class nsArrayBase;
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protected:
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nsCOMArray_base() {}
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explicit nsCOMArray_base(int32_t aCount) : mArray(aCount) {}
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nsCOMArray_base(const nsCOMArray_base& aOther);
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~nsCOMArray_base();
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int32_t IndexOf(nsISupports* aObject, uint32_t aStartIndex = 0) const;
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bool Contains(nsISupports* aObject) const
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{
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return IndexOf(aObject) != -1;
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}
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int32_t IndexOfObject(nsISupports* aObject) const;
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bool ContainsObject(nsISupports* aObject) const
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{
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return IndexOfObject(aObject) != -1;
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}
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typedef bool (*nsBaseArrayEnumFunc)(void* aElement, void* aData);
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// enumerate through the array with a callback.
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bool EnumerateForwards(nsBaseArrayEnumFunc aFunc, void* aData) const;
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bool EnumerateBackwards(nsBaseArrayEnumFunc aFunc, void* aData) const;
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typedef int (*nsBaseArrayComparatorFunc)(nsISupports* aElement1,
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nsISupports* aElement2,
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void* aData);
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struct nsCOMArrayComparatorContext
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{
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nsBaseArrayComparatorFunc mComparatorFunc;
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void* mData;
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};
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static int nsCOMArrayComparator(const void* aElement1, const void* aElement2,
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void* aData);
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void Sort(nsBaseArrayComparatorFunc aFunc, void* aData);
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bool InsertObjectAt(nsISupports* aObject, int32_t aIndex);
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void InsertElementAt(uint32_t aIndex, nsISupports* aElement);
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bool InsertObjectsAt(const nsCOMArray_base& aObjects, int32_t aIndex);
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void InsertElementsAt(uint32_t aIndex, const nsCOMArray_base& aElements);
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void InsertElementsAt(uint32_t aIndex, nsISupports* const* aElements,
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uint32_t aCount);
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bool ReplaceObjectAt(nsISupports* aObject, int32_t aIndex);
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void ReplaceElementAt(uint32_t aIndex, nsISupports* aElement)
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{
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nsISupports* oldElement = mArray[aIndex];
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NS_IF_ADDREF(mArray[aIndex] = aElement);
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NS_IF_RELEASE(oldElement);
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}
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bool AppendObject(nsISupports* aObject)
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{
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return InsertObjectAt(aObject, Count());
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}
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void AppendElement(nsISupports* aElement)
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{
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InsertElementAt(Length(), aElement);
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}
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bool AppendObjects(const nsCOMArray_base& aObjects)
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{
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return InsertObjectsAt(aObjects, Count());
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}
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void AppendElements(const nsCOMArray_base& aElements)
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{
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return InsertElementsAt(Length(), aElements);
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}
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void AppendElements(nsISupports* const* aElements, uint32_t aCount)
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{
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return InsertElementsAt(Length(), aElements, aCount);
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}
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bool RemoveObject(nsISupports* aObject);
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nsISupports** Elements() { return mArray.Elements(); }
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void SwapElements(nsCOMArray_base& aOther)
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{
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mArray.SwapElements(aOther.mArray);
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}
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void Adopt(nsISupports** aElements, uint32_t aCount);
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uint32_t Forget(nsISupports*** aElements);
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public:
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// elements in the array (including null elements!)
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int32_t Count() const { return mArray.Length(); }
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// nsTArray-compatible version
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uint32_t Length() const { return mArray.Length(); }
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bool IsEmpty() const { return mArray.IsEmpty(); }
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// If the array grows, the newly created entries will all be null;
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// if the array shrinks, the excess entries will all be released.
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bool SetCount(int32_t aNewCount);
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// nsTArray-compatible version
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void TruncateLength(uint32_t aNewLength)
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{
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if (mArray.Length() > aNewLength) {
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RemoveElementsAt(aNewLength, mArray.Length() - aNewLength);
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}
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}
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// remove all elements in the array, and call NS_RELEASE on each one
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void Clear();
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nsISupports* ObjectAt(int32_t aIndex) const { return mArray[aIndex]; }
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// nsTArray-compatible version
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nsISupports* ElementAt(uint32_t aIndex) const { return mArray[aIndex]; }
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nsISupports* SafeObjectAt(int32_t aIndex) const
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{
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return mArray.SafeElementAt(aIndex, nullptr);
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}
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// nsTArray-compatible version
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nsISupports* SafeElementAt(uint32_t aIndex) const
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{
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return mArray.SafeElementAt(aIndex, nullptr);
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}
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nsISupports* operator[](int32_t aIndex) const { return mArray[aIndex]; }
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// remove an element at a specific position, shrinking the array
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// as necessary
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bool RemoveObjectAt(int32_t aIndex);
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// nsTArray-compatible version
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void RemoveElementAt(uint32_t aIndex);
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// remove a range of elements at a specific position, shrinking the array
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// as necessary
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bool RemoveObjectsAt(int32_t aIndex, int32_t aCount);
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// nsTArray-compatible version
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void RemoveElementsAt(uint32_t aIndex, uint32_t aCount);
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void SwapElementsAt(uint32_t aIndex1, uint32_t aIndex2)
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{
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nsISupports* tmp = mArray[aIndex1];
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mArray[aIndex1] = mArray[aIndex2];
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mArray[aIndex2] = tmp;
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}
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// Ensures there is enough space to store a total of aCapacity objects.
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// This method never deletes any objects.
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void SetCapacity(uint32_t aCapacity) { mArray.SetCapacity(aCapacity); }
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uint32_t Capacity() { return mArray.Capacity(); }
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typedef size_t (*nsBaseArraySizeOfElementIncludingThisFunc)(
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nsISupports* aElement, mozilla::MallocSizeOf aMallocSizeOf, void* aData);
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// Measures the size of the array's element storage, and if
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// |aSizeOfElement| is non-nullptr, measures the size of things pointed to
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// by elements.
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size_t SizeOfExcludingThis(
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nsBaseArraySizeOfElementIncludingThisFunc aSizeOfElementIncludingThis,
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mozilla::MallocSizeOf aMallocSizeOf, void* aData = nullptr) const;
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private:
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// the actual storage
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nsTArray<nsISupports*> mArray;
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// don't implement these, defaults will muck with refcounts!
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nsCOMArray_base& operator=(const nsCOMArray_base& aOther) = delete;
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};
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inline void
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ImplCycleCollectionUnlink(nsCOMArray_base& aField)
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{
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aField.Clear();
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}
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inline void
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ImplCycleCollectionTraverse(nsCycleCollectionTraversalCallback& aCallback,
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nsCOMArray_base& aField,
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const char* aName,
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uint32_t aFlags = 0)
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{
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aFlags |= CycleCollectionEdgeNameArrayFlag;
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int32_t length = aField.Count();
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for (int32_t i = 0; i < length; ++i) {
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CycleCollectionNoteChild(aCallback, aField[i], aName, aFlags);
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}
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}
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// a non-XPCOM, refcounting array of XPCOM objects
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// used as a member variable or stack variable - this object is NOT
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// refcounted, but the objects that it holds are
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//
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// most of the read-only accessors like ObjectAt()/etc do NOT refcount
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// on the way out. This means that you can do one of two things:
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//
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// * does an addref, but holds onto a reference
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// nsCOMPtr<T> foo = array[i];
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//
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// * avoids the refcount, but foo might go stale if array[i] is ever
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// * modified/removed. Be careful not to NS_RELEASE(foo)!
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// T* foo = array[i];
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//
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// This array will accept null as an argument for any object, and will
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// store null in the array, just like nsVoidArray. But that also means
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// that methods like ObjectAt() may return null when referring to an
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// existing, but null entry in the array.
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template<class T>
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class nsCOMArray : public nsCOMArray_base
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{
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public:
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nsCOMArray() {}
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explicit nsCOMArray(int32_t aCount) : nsCOMArray_base(aCount) {}
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explicit nsCOMArray(const nsCOMArray<T>& aOther) : nsCOMArray_base(aOther) {}
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nsCOMArray(nsCOMArray<T>&& aOther) { SwapElements(aOther); }
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~nsCOMArray() {}
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// We have a move assignment operator, but no copy assignment operator.
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nsCOMArray<T>& operator=(nsCOMArray<T> && aOther)
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{
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SwapElements(aOther);
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return *this;
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}
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// these do NOT refcount on the way out, for speed
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T* ObjectAt(int32_t aIndex) const
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{
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return static_cast<T*>(nsCOMArray_base::ObjectAt(aIndex));
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}
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// nsTArray-compatible version
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T* ElementAt(uint32_t aIndex) const
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{
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return static_cast<T*>(nsCOMArray_base::ElementAt(aIndex));
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}
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// these do NOT refcount on the way out, for speed
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T* SafeObjectAt(int32_t aIndex) const
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{
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return static_cast<T*>(nsCOMArray_base::SafeObjectAt(aIndex));
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}
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// nsTArray-compatible version
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T* SafeElementAt(uint32_t aIndex) const
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{
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return static_cast<T*>(nsCOMArray_base::SafeElementAt(aIndex));
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}
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// indexing operator for syntactic sugar
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T* operator[](int32_t aIndex) const { return ObjectAt(aIndex); }
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// index of the element in question.. does NOT refcount
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// note: this does not check COM object identity. Use
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// IndexOfObject() for that purpose
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int32_t IndexOf(T* aObject, uint32_t aStartIndex = 0) const
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{
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return nsCOMArray_base::IndexOf(aObject, aStartIndex);
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}
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bool Contains(T* aObject) const
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{
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return nsCOMArray_base::Contains(aObject);
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}
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// index of the element in question.. be careful!
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// this is much slower than IndexOf() because it uses
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// QueryInterface to determine actual COM identity of the object
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// if you need to do this frequently then consider enforcing
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// COM object identity before adding/comparing elements
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int32_t IndexOfObject(T* aObject) const
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{
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return nsCOMArray_base::IndexOfObject(aObject);
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}
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bool ContainsObject(nsISupports* aObject) const
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{
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return nsCOMArray_base::ContainsObject(aObject);
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}
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// inserts aObject at aIndex, shifting the objects at aIndex and
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// later to make space
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bool InsertObjectAt(T* aObject, int32_t aIndex)
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{
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return nsCOMArray_base::InsertObjectAt(aObject, aIndex);
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}
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// nsTArray-compatible version
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void InsertElementAt(uint32_t aIndex, T* aElement)
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{
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nsCOMArray_base::InsertElementAt(aIndex, aElement);
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}
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// inserts the objects from aObject at aIndex, shifting the
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// objects at aIndex and later to make space
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bool InsertObjectsAt(const nsCOMArray<T>& aObjects, int32_t aIndex)
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{
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return nsCOMArray_base::InsertObjectsAt(aObjects, aIndex);
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}
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// nsTArray-compatible version
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void InsertElementsAt(uint32_t aIndex, const nsCOMArray<T>& aElements)
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{
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nsCOMArray_base::InsertElementsAt(aIndex, aElements);
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}
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void InsertElementsAt(uint32_t aIndex, T* const* aElements, uint32_t aCount)
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{
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nsCOMArray_base::InsertElementsAt(
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aIndex, reinterpret_cast<nsISupports* const*>(aElements), aCount);
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}
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// replaces an existing element. Warning: if the array grows,
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// the newly created entries will all be null
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bool ReplaceObjectAt(T* aObject, int32_t aIndex)
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{
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return nsCOMArray_base::ReplaceObjectAt(aObject, aIndex);
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}
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// nsTArray-compatible version
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void ReplaceElementAt(uint32_t aIndex, T* aElement)
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{
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nsCOMArray_base::ReplaceElementAt(aIndex, aElement);
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}
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// Enumerator callback function. Return false to stop
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// Here's a more readable form:
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// bool enumerate(T* aElement, void* aData)
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typedef bool (*nsCOMArrayEnumFunc)(T* aElement, void* aData);
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// enumerate through the array with a callback.
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bool EnumerateForwards(nsCOMArrayEnumFunc aFunc, void* aData)
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{
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return nsCOMArray_base::EnumerateForwards(nsBaseArrayEnumFunc(aFunc),
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aData);
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}
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bool EnumerateBackwards(nsCOMArrayEnumFunc aFunc, void* aData)
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{
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return nsCOMArray_base::EnumerateBackwards(nsBaseArrayEnumFunc(aFunc),
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aData);
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}
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typedef int (*nsCOMArrayComparatorFunc)(T* aElement1, T* aElement2,
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void* aData);
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void Sort(nsCOMArrayComparatorFunc aFunc, void* aData)
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{
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nsCOMArray_base::Sort(nsBaseArrayComparatorFunc(aFunc), aData);
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}
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// append an object, growing the array as necessary
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bool AppendObject(T* aObject)
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{
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return nsCOMArray_base::AppendObject(aObject);
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}
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// nsTArray-compatible version
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void AppendElement(T* aElement)
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{
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nsCOMArray_base::AppendElement(aElement);
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}
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// append objects, growing the array as necessary
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bool AppendObjects(const nsCOMArray<T>& aObjects)
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{
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return nsCOMArray_base::AppendObjects(aObjects);
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}
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// nsTArray-compatible version
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void AppendElements(const nsCOMArray<T>& aElements)
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{
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return nsCOMArray_base::AppendElements(aElements);
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}
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void AppendElements(T* const* aElements, uint32_t aCount)
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{
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InsertElementsAt(Length(), aElements, aCount);
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}
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// remove the first instance of the given object and shrink the
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// array as necessary
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// Warning: if you pass null here, it will remove the first null element
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bool RemoveObject(T* aObject)
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{
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return nsCOMArray_base::RemoveObject(aObject);
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}
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// nsTArray-compatible version
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bool RemoveElement(T* aElement)
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{
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return nsCOMArray_base::RemoveObject(aElement);
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}
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T** Elements()
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{
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return reinterpret_cast<T**>(nsCOMArray_base::Elements());
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}
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void SwapElements(nsCOMArray<T>& aOther)
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{
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nsCOMArray_base::SwapElements(aOther);
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}
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// Each element in an nsCOMArray<T> is actually a T*, so this function is
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// "IncludingThis" rather than "ExcludingThis" because it needs to measure
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// the memory taken by the T itself as well as anything it points to.
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typedef size_t (*nsCOMArraySizeOfElementIncludingThisFunc)(
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T* aElement, mozilla::MallocSizeOf aMallocSizeOf, void* aData);
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size_t SizeOfExcludingThis(
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nsCOMArraySizeOfElementIncludingThisFunc aSizeOfElementIncludingThis,
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mozilla::MallocSizeOf aMallocSizeOf, void* aData = nullptr) const
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{
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return nsCOMArray_base::SizeOfExcludingThis(
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nsBaseArraySizeOfElementIncludingThisFunc(aSizeOfElementIncludingThis),
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aMallocSizeOf, aData);
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}
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/**
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* Adopt parameters that resulted from an XPIDL outparam. The aElements
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* parameter will be freed as a result of the call.
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*
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* Example usage:
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* nsCOMArray<nsISomeInterface> array;
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* nsISomeInterface** elements;
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* uint32_t length;
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* ptr->GetSomeArray(&elements, &length);
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* array.Adopt(elements, length);
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*/
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void Adopt(T** aElements, uint32_t aSize)
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{
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nsCOMArray_base::Adopt(reinterpret_cast<nsISupports**>(aElements), aSize);
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}
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/**
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* Export the contents of this array to an XPIDL outparam. The array will be
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* Clear()'d after this operation.
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*
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* Example usage:
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* nsCOMArray<nsISomeInterface> array;
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* *length = array.Forget(retval);
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*/
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uint32_t Forget(T*** aElements)
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{
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return nsCOMArray_base::Forget(reinterpret_cast<nsISupports***>(aElements));
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}
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private:
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// don't implement these!
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nsCOMArray<T>& operator=(const nsCOMArray<T>& aOther) = delete;
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};
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template<typename T>
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inline void
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ImplCycleCollectionUnlink(nsCOMArray<T>& aField)
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{
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aField.Clear();
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}
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template<typename E>
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inline void
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ImplCycleCollectionTraverse(nsCycleCollectionTraversalCallback& aCallback,
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nsCOMArray<E>& aField,
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const char* aName,
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uint32_t aFlags = 0)
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{
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aFlags |= CycleCollectionEdgeNameArrayFlag;
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int32_t length = aField.Count();
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for (int32_t i = 0; i < length; ++i) {
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CycleCollectionNoteChild(aCallback, aField[i], aName, aFlags);
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}
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}
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#endif
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