зеркало из https://github.com/mozilla/gecko-dev.git
295 строки
9.7 KiB
C++
295 строки
9.7 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 nsAtom_h
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#define nsAtom_h
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#include "nsISupportsImpl.h"
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#include "nsString.h"
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#include "mozilla/Atomics.h"
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#include "mozilla/UniquePtr.h"
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namespace mozilla {
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struct AtomsSizes;
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}
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class nsStaticAtom;
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class nsDynamicAtom;
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// This class encompasses both static and dynamic atoms.
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//
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// - In places where static and dynamic atoms can be used, use RefPtr<nsAtom>.
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// This is by far the most common case.
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//
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// - In places where only static atoms can appear, use nsStaticAtom* to avoid
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// unnecessary refcounting. This is a moderately common case.
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//
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// - In places where only dynamic atoms can appear, it doesn't matter much
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// whether you use RefPtr<nsAtom> or RefPtr<nsDynamicAtom>. This is an
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// extremely rare case.
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//
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class nsAtom {
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public:
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void AddSizeOfIncludingThis(mozilla::MallocSizeOf aMallocSizeOf,
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mozilla::AtomsSizes& aSizes) const;
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bool Equals(char16ptr_t aString, uint32_t aLength) const {
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return mLength == aLength &&
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memcmp(GetUTF16String(), aString, mLength * sizeof(char16_t)) == 0;
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}
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bool Equals(const nsAString& aString) const {
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return Equals(aString.BeginReading(), aString.Length());
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}
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bool IsStatic() const { return mIsStatic; }
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bool IsDynamic() const { return !IsStatic(); }
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inline const nsStaticAtom* AsStatic() const;
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inline const nsDynamicAtom* AsDynamic() const;
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inline nsDynamicAtom* AsDynamic();
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char16ptr_t GetUTF16String() const;
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uint32_t GetLength() const { return mLength; }
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operator mozilla::Span<const char16_t>() const {
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return mozilla::MakeSpan(static_cast<const char16_t*>(GetUTF16String()),
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GetLength());
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}
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void ToString(nsAString& aString) const;
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void ToUTF8String(nsACString& aString) const;
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// A hashcode that is better distributed than the actual atom pointer, for
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// use in situations that need a well-distributed hashcode. It's called hash()
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// rather than Hash() so we can use mozilla::BloomFilter<N, nsAtom>, because
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// BloomFilter requires elements to implement a function called hash().
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//
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uint32_t hash() const { return mHash; }
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// This function returns true if ToLowercaseASCII would return the string
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// unchanged.
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bool IsAsciiLowercase() const { return mIsAsciiLowercase; }
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// This function returns true if this is the empty atom. This is exactly
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// equivalent to `this == nsGkAtoms::_empty`, but it's a bit less foot-gunny,
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// since we also have `nsGkAtoms::empty`.
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//
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// Defined in nsGkAtoms.h
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inline bool IsEmpty() const;
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// We can't use NS_INLINE_DECL_THREADSAFE_REFCOUNTING because the refcounting
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// of this type is special.
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inline MozExternalRefCountType AddRef();
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inline MozExternalRefCountType Release();
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typedef mozilla::TrueType HasThreadSafeRefCnt;
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protected:
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// Used by nsStaticAtom.
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constexpr nsAtom(uint32_t aLength, uint32_t aHash, bool aIsAsciiLowercase)
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: mLength(aLength),
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mIsStatic(true),
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mIsAsciiLowercase(aIsAsciiLowercase),
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mHash(aHash) {}
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// Used by nsDynamicAtom.
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nsAtom(const nsAString& aString, uint32_t aHash, bool aIsAsciiLowercase)
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: mLength(aString.Length()),
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mIsStatic(false),
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mIsAsciiLowercase(aIsAsciiLowercase),
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mHash(aHash) {}
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~nsAtom() = default;
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const uint32_t mLength : 30;
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const uint32_t mIsStatic : 1;
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const uint32_t mIsAsciiLowercase : 1;
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const uint32_t mHash;
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};
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// This class would be |final| if it wasn't for nsCSSAnonBoxPseudoStaticAtom
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// and nsCSSPseudoElementStaticAtom, which are trivial subclasses used to
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// ensure only certain static atoms are passed to certain functions.
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class nsStaticAtom : public nsAtom {
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public:
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// These are deleted so it's impossible to RefPtr<nsStaticAtom>. Raw
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// nsStaticAtom pointers should be used instead.
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MozExternalRefCountType AddRef() = delete;
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MozExternalRefCountType Release() = delete;
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// The static atom's precomputed hash value is an argument here, but it
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// must be the same as would be computed by mozilla::HashString(aStr),
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// which is what we use when atomizing strings. We compute this hash in
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// Atom.py and assert in nsAtomTable::RegisterStaticAtoms that the two
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// hashes match.
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constexpr nsStaticAtom(uint32_t aLength, uint32_t aHash,
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uint32_t aStringOffset, bool aIsAsciiLowercase)
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: nsAtom(aLength, aHash, aIsAsciiLowercase),
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mStringOffset(aStringOffset) {}
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const char16_t* String() const {
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return reinterpret_cast<const char16_t*>(uintptr_t(this) - mStringOffset);
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}
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already_AddRefed<nsAtom> ToAddRefed() {
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return already_AddRefed<nsAtom>(static_cast<nsAtom*>(this));
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}
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private:
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// This is an offset to the string chars, which must be at a lower address in
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// memory.
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uint32_t mStringOffset;
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};
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class nsDynamicAtom : public nsAtom {
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public:
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// We can't use NS_INLINE_DECL_THREADSAFE_REFCOUNTING because the refcounting
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// of this type is special.
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MozExternalRefCountType AddRef() {
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MOZ_ASSERT(int32_t(mRefCnt) >= 0, "illegal refcnt");
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nsrefcnt count = ++mRefCnt;
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if (count == 1) {
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gUnusedAtomCount--;
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}
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return count;
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}
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MozExternalRefCountType Release() {
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#ifdef DEBUG
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// We set a lower GC threshold for atoms in debug builds so that we exercise
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// the GC machinery more often.
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static const int32_t kAtomGCThreshold = 20;
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#else
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static const int32_t kAtomGCThreshold = 10000;
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#endif
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MOZ_ASSERT(int32_t(mRefCnt) > 0, "dup release");
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nsrefcnt count = --mRefCnt;
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if (count == 0) {
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if (++gUnusedAtomCount >= kAtomGCThreshold) {
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GCAtomTable();
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}
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}
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return count;
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}
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const char16_t* String() const {
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return reinterpret_cast<const char16_t*>(this + 1);
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}
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static nsDynamicAtom* FromChars(char16_t* chars) {
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return reinterpret_cast<nsDynamicAtom*>(chars) - 1;
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}
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private:
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friend class nsAtomTable;
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friend class nsAtomSubTable;
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friend int32_t NS_GetUnusedAtomCount();
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static mozilla::Atomic<int32_t, mozilla::ReleaseAcquire,
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mozilla::recordreplay::Behavior::DontPreserve>
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gUnusedAtomCount;
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static void GCAtomTable();
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// These shouldn't be used directly, even by friend classes. The
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// Create()/Destroy() methods use them.
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nsDynamicAtom(const nsAString& aString, uint32_t aHash,
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bool aIsAsciiLowercase);
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~nsDynamicAtom() {}
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static nsDynamicAtom* Create(const nsAString& aString, uint32_t aHash);
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static void Destroy(nsDynamicAtom* aAtom);
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mozilla::ThreadSafeAutoRefCnt mRefCnt;
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// The atom's chars are stored at the end of the struct.
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};
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const nsStaticAtom* nsAtom::AsStatic() const {
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MOZ_ASSERT(IsStatic());
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return static_cast<const nsStaticAtom*>(this);
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}
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const nsDynamicAtom* nsAtom::AsDynamic() const {
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MOZ_ASSERT(IsDynamic());
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return static_cast<const nsDynamicAtom*>(this);
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}
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nsDynamicAtom* nsAtom::AsDynamic() {
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MOZ_ASSERT(IsDynamic());
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return static_cast<nsDynamicAtom*>(this);
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}
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MozExternalRefCountType nsAtom::AddRef() {
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return IsStatic() ? 2 : AsDynamic()->AddRef();
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}
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MozExternalRefCountType nsAtom::Release() {
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return IsStatic() ? 1 : AsDynamic()->Release();
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}
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// The four forms of NS_Atomize (for use with |RefPtr<nsAtom>|) return the
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// atom for the string given. At any given time there will always be one atom
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// representing a given string. Atoms are intended to make string comparison
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// cheaper by simplifying it to pointer equality. A pointer to the atom that
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// does not own a reference is not guaranteed to be valid.
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// Find an atom that matches the given UTF-8 string. The string is assumed to
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// be zero terminated. Never returns null.
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already_AddRefed<nsAtom> NS_Atomize(const char* aUTF8String);
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// Find an atom that matches the given UTF-8 string. Never returns null.
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already_AddRefed<nsAtom> NS_Atomize(const nsACString& aUTF8String);
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// Find an atom that matches the given UTF-16 string. The string is assumed to
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// be zero terminated. Never returns null.
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already_AddRefed<nsAtom> NS_Atomize(const char16_t* aUTF16String);
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// Find an atom that matches the given UTF-16 string. Never returns null.
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already_AddRefed<nsAtom> NS_Atomize(const nsAString& aUTF16String);
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// An optimized version of the method above for the main thread.
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already_AddRefed<nsAtom> NS_AtomizeMainThread(const nsAString& aUTF16String);
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// Return a count of the total number of atoms currently alive in the system.
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//
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// Note that the result is imprecise and racy if other threads are currently
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// operating on atoms. It's also slow, since it triggers a GC before counting.
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// Currently this function is only used in tests, which should probably remain
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// the case.
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nsrefcnt NS_GetNumberOfAtoms();
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// Return a pointer for a static atom for the string or null if there's no
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// static atom for this string.
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nsStaticAtom* NS_GetStaticAtom(const nsAString& aUTF16String);
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class nsAtomString : public nsString {
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public:
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explicit nsAtomString(const nsAtom* aAtom) { aAtom->ToString(*this); }
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};
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class nsAtomCString : public nsCString {
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public:
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explicit nsAtomCString(const nsAtom* aAtom) { aAtom->ToUTF8String(*this); }
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};
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class nsDependentAtomString : public nsDependentString {
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public:
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explicit nsDependentAtomString(const nsAtom* aAtom)
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: nsDependentString(aAtom->GetUTF16String(), aAtom->GetLength()) {}
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};
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// Checks if the ascii chars in a given atom are already lowercase.
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// If they are, no-op. Otherwise, converts all the ascii uppercase
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// chars to lowercase and atomizes, storing the result in the inout
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// param.
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void ToLowerCaseASCII(RefPtr<nsAtom>& aAtom);
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#endif // nsAtom_h
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