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|
/* -*- Mode: C++; tab-width: 8; indent-tabs-mode: nil; c-basic-offset: 2 -*- */
/* vim: set ts=8 sts=2 et sw=2 tw=80: */
/* This Source Code Form is subject to the terms of the Mozilla Public
* License, v. 2.0. If a copy of the MPL was not distributed with this
* file, You can obtain one at http://mozilla.org/MPL/2.0/. */
/*
* A struct that represents the value (type and actual data) of an
* attribute.
*/
#include "mozilla/ArrayUtils.h"
#include "mozilla/DebugOnly.h"
#include "mozilla/HashFunctions.h"
#include "nsAttrValue.h"
#include "nsAttrValueInlines.h"
#include "nsUnicharUtils.h"
#include "mozilla/AttributeStyles.h"
#include "mozilla/ClearOnShutdown.h"
#include "mozilla/BloomFilter.h"
#include "mozilla/DeclarationBlock.h"
#include "mozilla/MemoryReporting.h"
#include "mozilla/ServoBindingTypes.h"
#include "mozilla/ServoUtils.h"
#include "mozilla/ShadowParts.h"
#include "mozilla/SVGAttrValueWrapper.h"
#include "mozilla/URLExtraData.h"
#include "mozilla/dom/Document.h"
#include "nsContentUtils.h"
#include "nsReadableUtils.h"
#include "nsStyledElement.h"
#include "nsIURI.h"
#include "ReferrerInfo.h"
#include <algorithm>
using namespace mozilla;
constexpr uint32_t kMiscContainerCacheSize = 128;
static void* gMiscContainerCache[kMiscContainerCacheSize];
static uint32_t gMiscContainerCount = 0;
/**
* Global cache for eAtomArray MiscContainer objects, to speed up the parsing
* of class attributes with multiple class names.
* This cache doesn't keep anything alive - a MiscContainer removes itself from
* the cache once its last reference is dropped.
*/
struct AtomArrayCache {
// We don't keep any strong references, neither to the atom nor to the
// MiscContainer. The MiscContainer removes itself from the cache when
// the last reference to it is dropped, and the atom is kept alive by
// the MiscContainer.
using MapType = nsTHashMap<nsAtom*, MiscContainer*>;
static MiscContainer* Lookup(nsAtom* aValue) {
if (auto* instance = GetInstance()) {
return instance->LookupImpl(aValue);
}
return nullptr;
}
static void Insert(nsAtom* aValue, MiscContainer* aCont) {
if (auto* instance = GetInstance()) {
instance->InsertImpl(aValue, aCont);
}
}
static void Remove(nsAtom* aValue) {
if (auto* instance = GetInstance()) {
instance->RemoveImpl(aValue);
}
}
static AtomArrayCache* GetInstance() {
static StaticAutoPtr<AtomArrayCache> sInstance;
if (!sInstance && !PastShutdownPhase(ShutdownPhase::XPCOMShutdownFinal)) {
sInstance = new AtomArrayCache();
ClearOnShutdown(&sInstance, ShutdownPhase::XPCOMShutdownFinal);
}
return sInstance;
}
private:
MiscContainer* LookupImpl(nsAtom* aValue) {
auto lookupResult = mMap.Lookup(aValue);
return lookupResult ? *lookupResult : nullptr;
}
void InsertImpl(nsAtom* aValue, MiscContainer* aCont) {
MOZ_ASSERT(aCont);
mMap.InsertOrUpdate(aValue, aCont);
}
void RemoveImpl(nsAtom* aValue) { mMap.Remove(aValue); }
MapType mMap;
};
/* static */
MiscContainer* nsAttrValue::AllocMiscContainer() {
MOZ_ASSERT(NS_IsMainThread());
static_assert(sizeof(gMiscContainerCache) <= 1024);
static_assert(sizeof(MiscContainer) <= 32);
// Allocate MiscContainer objects in batches to improve performance.
if (gMiscContainerCount == 0) {
for (; gMiscContainerCount < kMiscContainerCacheSize;
++gMiscContainerCount) {
gMiscContainerCache[gMiscContainerCount] =
moz_xmalloc(sizeof(MiscContainer));
}
}
return new (gMiscContainerCache[--gMiscContainerCount]) MiscContainer();
}
/* static */
void nsAttrValue::DeallocMiscContainer(MiscContainer* aCont) {
MOZ_ASSERT(NS_IsMainThread());
if (!aCont) {
return;
}
aCont->~MiscContainer();
if (gMiscContainerCount < kMiscContainerCacheSize) {
gMiscContainerCache[gMiscContainerCount++] = aCont;
return;
}
free(aCont);
}
bool MiscContainer::GetString(nsAString& aString) const {
bool isString;
void* ptr = GetStringOrAtomPtr(isString);
if (!ptr) {
return false;
}
if (isString) {
auto* buffer = static_cast<nsStringBuffer*>(ptr);
aString.Assign(buffer, buffer->StorageSize() / sizeof(char16_t) - 1);
} else {
static_cast<nsAtom*>(ptr)->ToString(aString);
}
return true;
}
void MiscContainer::Cache() {
switch (mType) {
case nsAttrValue::eCSSDeclaration: {
MOZ_ASSERT(IsRefCounted());
MOZ_ASSERT(mValue.mRefCount > 0);
MOZ_ASSERT(!mValue.mCached);
AttributeStyles* attrStyles =
mValue.mCSSDeclaration->GetAttributeStyles();
if (!attrStyles) {
return;
}
nsString str;
bool gotString = GetString(str);
if (!gotString) {
return;
}
attrStyles->CacheStyleAttr(str, this);
mValue.mCached = 1;
// This has to be immutable once it goes into the cache.
mValue.mCSSDeclaration->SetImmutable();
break;
}
case nsAttrValue::eAtomArray: {
MOZ_ASSERT(IsRefCounted());
MOZ_ASSERT(mValue.mRefCount > 0);
MOZ_ASSERT(!mValue.mCached);
nsAtom* atom = GetStoredAtom();
if (!atom) {
return;
}
AtomArrayCache::Insert(atom, this);
mValue.mCached = 1;
break;
}
default:
MOZ_ASSERT_UNREACHABLE("unexpected cached nsAttrValue type");
break;
}
}
void MiscContainer::Evict() {
switch (mType) {
case nsAttrValue::eCSSDeclaration: {
MOZ_ASSERT(IsRefCounted());
MOZ_ASSERT(mValue.mRefCount == 0);
if (!mValue.mCached) {
return;
}
AttributeStyles* attrStyles =
mValue.mCSSDeclaration->GetAttributeStyles();
MOZ_ASSERT(attrStyles);
nsString str;
DebugOnly<bool> gotString = GetString(str);
MOZ_ASSERT(gotString);
attrStyles->EvictStyleAttr(str, this);
mValue.mCached = 0;
break;
}
case nsAttrValue::eAtomArray: {
MOZ_ASSERT(IsRefCounted());
MOZ_ASSERT(mValue.mRefCount == 0);
if (!mValue.mCached) {
return;
}
nsAtom* atom = GetStoredAtom();
MOZ_ASSERT(atom);
AtomArrayCache::Remove(atom);
mValue.mCached = 0;
break;
}
default:
MOZ_ASSERT_UNREACHABLE("unexpected cached nsAttrValue type");
break;
}
}
nsTArray<const nsAttrValue::EnumTable*>* nsAttrValue::sEnumTableArray = nullptr;
nsAttrValue::nsAttrValue() : mBits(0) {}
nsAttrValue::nsAttrValue(const nsAttrValue& aOther) : mBits(0) {
SetTo(aOther);
}
nsAttrValue::nsAttrValue(const nsAString& aValue) : mBits(0) { SetTo(aValue); }
nsAttrValue::nsAttrValue(nsAtom* aValue) : mBits(0) { SetTo(aValue); }
nsAttrValue::nsAttrValue(already_AddRefed<DeclarationBlock> aValue,
const nsAString* aSerialized)
: mBits(0) {
SetTo(std::move(aValue), aSerialized);
}
nsAttrValue::~nsAttrValue() { ResetIfSet(); }
/* static */
void nsAttrValue::Init() {
MOZ_ASSERT(!sEnumTableArray, "nsAttrValue already initialized");
sEnumTableArray = new nsTArray<const EnumTable*>;
}
/* static */
void nsAttrValue::Shutdown() {
MOZ_ASSERT(NS_IsMainThread());
delete sEnumTableArray;
sEnumTableArray = nullptr;
for (uint32_t i = 0; i < gMiscContainerCount; ++i) {
free(gMiscContainerCache[i]);
}
gMiscContainerCount = 0;
}
void nsAttrValue::Reset() {
switch (BaseType()) {
case eStringBase: {
if (auto* str = static_cast<nsStringBuffer*>(GetPtr())) {
str->Release();
}
break;
}
case eOtherBase: {
MiscContainer* cont = GetMiscContainer();
if (cont->IsRefCounted() && cont->mValue.mRefCount > 1) {
NS_RELEASE(cont);
break;
}
DeallocMiscContainer(ClearMiscContainer());
break;
}
case eAtomBase: {
nsAtom* atom = GetAtomValue();
NS_RELEASE(atom);
break;
}
case eIntegerBase: {
break;
}
}
mBits = 0;
}
void nsAttrValue::SetTo(const nsAttrValue& aOther) {
if (this == &aOther) {
return;
}
switch (aOther.BaseType()) {
case eStringBase: {
ResetIfSet();
if (auto* str = static_cast<nsStringBuffer*>(aOther.GetPtr())) {
str->AddRef();
SetPtrValueAndType(str, eStringBase);
}
return;
}
case eOtherBase: {
break;
}
case eAtomBase: {
ResetIfSet();
nsAtom* atom = aOther.GetAtomValue();
NS_ADDREF(atom);
SetPtrValueAndType(atom, eAtomBase);
return;
}
case eIntegerBase: {
ResetIfSet();
mBits = aOther.mBits;
return;
}
}
MiscContainer* otherCont = aOther.GetMiscContainer();
if (otherCont->IsRefCounted()) {
DeallocMiscContainer(ClearMiscContainer());
NS_ADDREF(otherCont);
SetPtrValueAndType(otherCont, eOtherBase);
return;
}
MiscContainer* cont = EnsureEmptyMiscContainer();
switch (otherCont->mType) {
case eInteger: {
cont->mValue.mInteger = otherCont->mValue.mInteger;
break;
}
case eEnum: {
cont->mValue.mEnumValue = otherCont->mValue.mEnumValue;
break;
}
case ePercent: {
cont->mDoubleValue = otherCont->mDoubleValue;
break;
}
case eColor: {
cont->mValue.mColor = otherCont->mValue.mColor;
break;
}
case eAtomArray:
case eShadowParts:
case eCSSDeclaration: {
MOZ_CRASH("These should be refcounted!");
}
case eURL: {
NS_ADDREF(cont->mValue.mURL = otherCont->mValue.mURL);
break;
}
case eDoubleValue: {
cont->mDoubleValue = otherCont->mDoubleValue;
break;
}
default: {
if (IsSVGType(otherCont->mType)) {
// All SVG types are just pointers to classes and will therefore have
// the same size so it doesn't really matter which one we assign
cont->mValue.mSVGLength = otherCont->mValue.mSVGLength;
} else {
MOZ_ASSERT_UNREACHABLE("unknown type stored in MiscContainer");
}
break;
}
}
bool isString;
if (void* otherPtr = otherCont->GetStringOrAtomPtr(isString)) {
if (isString) {
static_cast<nsStringBuffer*>(otherPtr)->AddRef();
} else {
static_cast<nsAtom*>(otherPtr)->AddRef();
}
cont->SetStringBitsMainThread(otherCont->mStringBits);
}
// Note, set mType after switch-case, otherwise EnsureEmptyAtomArray doesn't
// work correctly.
cont->mType = otherCont->mType;
}
void nsAttrValue::SetTo(const nsAString& aValue) {
ResetIfSet();
nsStringBuffer* buf = GetStringBuffer(aValue).take();
if (buf) {
SetPtrValueAndType(buf, eStringBase);
}
}
void nsAttrValue::SetTo(nsAtom* aValue) {
ResetIfSet();
if (aValue) {
NS_ADDREF(aValue);
SetPtrValueAndType(aValue, eAtomBase);
}
}
void nsAttrValue::SetTo(int16_t aInt) {
ResetIfSet();
SetIntValueAndType(aInt, eInteger, nullptr);
}
void nsAttrValue::SetTo(int32_t aInt, const nsAString* aSerialized) {
ResetIfSet();
SetIntValueAndType(aInt, eInteger, aSerialized);
}
void nsAttrValue::SetTo(double aValue, const nsAString* aSerialized) {
MiscContainer* cont = EnsureEmptyMiscContainer();
cont->mDoubleValue = aValue;
cont->mType = eDoubleValue;
SetMiscAtomOrString(aSerialized);
}
void nsAttrValue::SetTo(already_AddRefed<DeclarationBlock> aValue,
const nsAString* aSerialized) {
MiscContainer* cont = EnsureEmptyMiscContainer();
MOZ_ASSERT(cont->mValue.mRefCount == 0);
cont->mValue.mCSSDeclaration = aValue.take();
cont->mType = eCSSDeclaration;
NS_ADDREF(cont);
SetMiscAtomOrString(aSerialized);
MOZ_ASSERT(cont->mValue.mRefCount == 1);
}
void nsAttrValue::SetTo(nsIURI* aValue, const nsAString* aSerialized) {
MiscContainer* cont = EnsureEmptyMiscContainer();
NS_ADDREF(cont->mValue.mURL = aValue);
cont->mType = eURL;
SetMiscAtomOrString(aSerialized);
}
void nsAttrValue::SetToSerialized(const nsAttrValue& aOther) {
if (aOther.Type() != nsAttrValue::eString &&
aOther.Type() != nsAttrValue::eAtom) {
nsAutoString val;
aOther.ToString(val);
SetTo(val);
} else {
SetTo(aOther);
}
}
void nsAttrValue::SetTo(const SVGAnimatedOrient& aValue,
const nsAString* aSerialized) {
SetSVGType(eSVGOrient, &aValue, aSerialized);
}
void nsAttrValue::SetTo(const SVGAnimatedIntegerPair& aValue,
const nsAString* aSerialized) {
SetSVGType(eSVGIntegerPair, &aValue, aSerialized);
}
void nsAttrValue::SetTo(const SVGAnimatedLength& aValue,
const nsAString* aSerialized) {
SetSVGType(eSVGLength, &aValue, aSerialized);
}
void nsAttrValue::SetTo(const SVGLengthList& aValue,
const nsAString* aSerialized) {
// While an empty string will parse as a length list, there's no need to store
// it (and SetMiscAtomOrString will assert if we try)
if (aSerialized && aSerialized->IsEmpty()) {
aSerialized = nullptr;
}
SetSVGType(eSVGLengthList, &aValue, aSerialized);
}
void nsAttrValue::SetTo(const SVGNumberList& aValue,
const nsAString* aSerialized) {
// While an empty string will parse as a number list, there's no need to store
// it (and SetMiscAtomOrString will assert if we try)
if (aSerialized && aSerialized->IsEmpty()) {
aSerialized = nullptr;
}
SetSVGType(eSVGNumberList, &aValue, aSerialized);
}
void nsAttrValue::SetTo(const SVGAnimatedNumberPair& aValue,
const nsAString* aSerialized) {
SetSVGType(eSVGNumberPair, &aValue, aSerialized);
}
void nsAttrValue::SetTo(const SVGPathData& aValue,
const nsAString* aSerialized) {
// While an empty string will parse as path data, there's no need to store it
// (and SetMiscAtomOrString will assert if we try)
if (aSerialized && aSerialized->IsEmpty()) {
aSerialized = nullptr;
}
SetSVGType(eSVGPathData, &aValue, aSerialized);
}
void nsAttrValue::SetTo(const SVGPointList& aValue,
const nsAString* aSerialized) {
// While an empty string will parse as a point list, there's no need to store
// it (and SetMiscAtomOrString will assert if we try)
if (aSerialized && aSerialized->IsEmpty()) {
aSerialized = nullptr;
}
SetSVGType(eSVGPointList, &aValue, aSerialized);
}
void nsAttrValue::SetTo(const SVGAnimatedPreserveAspectRatio& aValue,
const nsAString* aSerialized) {
SetSVGType(eSVGPreserveAspectRatio, &aValue, aSerialized);
}
void nsAttrValue::SetTo(const SVGStringList& aValue,
const nsAString* aSerialized) {
// While an empty string will parse as a string list, there's no need to store
// it (and SetMiscAtomOrString will assert if we try)
if (aSerialized && aSerialized->IsEmpty()) {
aSerialized = nullptr;
}
SetSVGType(eSVGStringList, &aValue, aSerialized);
}
void nsAttrValue::SetTo(const SVGTransformList& aValue,
const nsAString* aSerialized) {
// While an empty string will parse as a transform list, there's no need to
// store it (and SetMiscAtomOrString will assert if we try)
if (aSerialized && aSerialized->IsEmpty()) {
aSerialized = nullptr;
}
SetSVGType(eSVGTransformList, &aValue, aSerialized);
}
void nsAttrValue::SetTo(const SVGAnimatedViewBox& aValue,
const nsAString* aSerialized) {
SetSVGType(eSVGViewBox, &aValue, aSerialized);
}
void nsAttrValue::SwapValueWith(nsAttrValue& aOther) {
uintptr_t tmp = aOther.mBits;
aOther.mBits = mBits;
mBits = tmp;
}
void nsAttrValue::RemoveDuplicatesFromAtomArray() {
if (Type() != eAtomArray) {
return;
}
const AttrAtomArray* currentAtomArray = GetMiscContainer()->mValue.mAtomArray;
UniquePtr<AttrAtomArray> deduplicatedAtomArray =
currentAtomArray->CreateDeduplicatedCopyIfDifferent();
if (!deduplicatedAtomArray) {
// No duplicates found. Leave this value unchanged.
return;
}
// We found duplicates. Wrap the new atom array into a fresh MiscContainer,
// and copy over the existing container's string or atom.
MiscContainer* oldCont = GetMiscContainer();
MOZ_ASSERT(oldCont->IsRefCounted());
uintptr_t stringBits = 0;
bool isString = false;
if (void* otherPtr = oldCont->GetStringOrAtomPtr(isString)) {
stringBits = oldCont->mStringBits;
if (isString) {
static_cast<nsStringBuffer*>(otherPtr)->AddRef();
} else {
static_cast<nsAtom*>(otherPtr)->AddRef();
}
}
MiscContainer* cont = EnsureEmptyMiscContainer();
MOZ_ASSERT(cont->mValue.mRefCount == 0);
cont->mValue.mAtomArray = deduplicatedAtomArray.release();
cont->mType = eAtomArray;
NS_ADDREF(cont);
MOZ_ASSERT(cont->mValue.mRefCount == 1);
cont->SetStringBitsMainThread(stringBits);
// Don't cache the new container. It would stomp over the undeduplicated
// value in the cache. But we could have a separate cache for deduplicated
// atom arrays, if repeated deduplication shows up in profiles.
}
void nsAttrValue::ToString(nsAString& aResult) const {
MiscContainer* cont = nullptr;
if (BaseType() == eOtherBase) {
cont = GetMiscContainer();
if (cont->GetString(aResult)) {
return;
}
}
switch (Type()) {
case eString: {
if (auto* str = static_cast<nsStringBuffer*>(GetPtr())) {
aResult.Assign(str, str->StorageSize() / sizeof(char16_t) - 1);
} else {
aResult.Truncate();
}
break;
}
case eAtom: {
auto* atom = static_cast<nsAtom*>(GetPtr());
atom->ToString(aResult);
break;
}
case eInteger: {
nsAutoString intStr;
intStr.AppendInt(GetIntegerValue());
aResult = intStr;
break;
}
#ifdef DEBUG
case eColor: {
MOZ_ASSERT_UNREACHABLE("color attribute without string data");
aResult.Truncate();
break;
}
#endif
case eEnum: {
GetEnumString(aResult, false);
break;
}
case ePercent: {
nsAutoString str;
if (cont) {
str.AppendFloat(cont->mDoubleValue);
} else {
str.AppendInt(GetIntInternal());
}
aResult = str + u"%"_ns;
break;
}
case eCSSDeclaration: {
aResult.Truncate();
MiscContainer* container = GetMiscContainer();
if (DeclarationBlock* decl = container->mValue.mCSSDeclaration) {
nsAutoCString result;
decl->ToString(result);
CopyUTF8toUTF16(result, aResult);
}
// This can be reached during parallel selector matching with attribute
// selectors on the style attribute. SetMiscAtomOrString handles this
// case, and as of this writing this is the only consumer that needs it.
const_cast<nsAttrValue*>(this)->SetMiscAtomOrString(&aResult);
break;
}
case eDoubleValue: {
aResult.Truncate();
aResult.AppendFloat(GetDoubleValue());
break;
}
case eSVGIntegerPair: {
SVGAttrValueWrapper::ToString(
GetMiscContainer()->mValue.mSVGAnimatedIntegerPair, aResult);
break;
}
case eSVGOrient: {
SVGAttrValueWrapper::ToString(
GetMiscContainer()->mValue.mSVGAnimatedOrient, aResult);
break;
}
case eSVGLength: {
SVGAttrValueWrapper::ToString(GetMiscContainer()->mValue.mSVGLength,
aResult);
break;
}
case eSVGLengthList: {
SVGAttrValueWrapper::ToString(GetMiscContainer()->mValue.mSVGLengthList,
aResult);
break;
}
case eSVGNumberList: {
SVGAttrValueWrapper::ToString(GetMiscContainer()->mValue.mSVGNumberList,
aResult);
break;
}
case eSVGNumberPair: {
SVGAttrValueWrapper::ToString(
GetMiscContainer()->mValue.mSVGAnimatedNumberPair, aResult);
break;
}
case eSVGPathData: {
SVGAttrValueWrapper::ToString(GetMiscContainer()->mValue.mSVGPathData,
aResult);
break;
}
case eSVGPointList: {
SVGAttrValueWrapper::ToString(GetMiscContainer()->mValue.mSVGPointList,
aResult);
break;
}
case eSVGPreserveAspectRatio: {
SVGAttrValueWrapper::ToString(
GetMiscContainer()->mValue.mSVGAnimatedPreserveAspectRatio, aResult);
break;
}
case eSVGStringList: {
SVGAttrValueWrapper::ToString(GetMiscContainer()->mValue.mSVGStringList,
aResult);
break;
}
case eSVGTransformList: {
SVGAttrValueWrapper::ToString(
GetMiscContainer()->mValue.mSVGTransformList, aResult);
break;
}
case eSVGViewBox: {
SVGAttrValueWrapper::ToString(
GetMiscContainer()->mValue.mSVGAnimatedViewBox, aResult);
break;
}
default: {
aResult.Truncate();
break;
}
}
}
already_AddRefed<nsAtom> nsAttrValue::GetAsAtom() const {
switch (Type()) {
case eString:
return NS_AtomizeMainThread(GetStringValue());
case eAtom: {
RefPtr<nsAtom> atom = GetAtomValue();
return atom.forget();
}
default: {
nsAutoString val;
ToString(val);
return NS_AtomizeMainThread(val);
}
}
}
const nsCheapString nsAttrValue::GetStringValue() const {
MOZ_ASSERT(Type() == eString, "wrong type");
return nsCheapString(static_cast<nsStringBuffer*>(GetPtr()));
}
bool nsAttrValue::GetColorValue(nscolor& aColor) const {
if (Type() != eColor) {
// Unparseable value, treat as unset.
NS_ASSERTION(Type() == eString, "unexpected type for color-valued attr");
return false;
}
aColor = GetMiscContainer()->mValue.mColor;
return true;
}
void nsAttrValue::GetEnumString(nsAString& aResult, bool aRealTag) const {
MOZ_ASSERT(Type() == eEnum, "wrong type");
uint32_t allEnumBits = (BaseType() == eIntegerBase)
? static_cast<uint32_t>(GetIntInternal())
: GetMiscContainer()->mValue.mEnumValue;
int16_t val = allEnumBits >> NS_ATTRVALUE_ENUMTABLEINDEX_BITS;
const EnumTable* table = sEnumTableArray->ElementAt(
allEnumBits & NS_ATTRVALUE_ENUMTABLEINDEX_MASK);
while (table->tag) {
if (table->value == val) {
aResult.AssignASCII(table->tag);
if (!aRealTag &&
allEnumBits & NS_ATTRVALUE_ENUMTABLE_VALUE_NEEDS_TO_UPPER) {
nsContentUtils::ASCIIToUpper(aResult);
}
return;
}
table++;
}
MOZ_ASSERT_UNREACHABLE("couldn't find value in EnumTable");
}
UniquePtr<AttrAtomArray> AttrAtomArray::CreateDeduplicatedCopyIfDifferentImpl()
const {
MOZ_ASSERT(mMayContainDuplicates);
bool usingHashTable = false;
BitBloomFilter<8, nsAtom> filter;
nsTHashSet<nsAtom*> hash;
auto CheckDuplicate = [&](size_t i) {
nsAtom* atom = mArray[i];
if (!usingHashTable) {
if (!filter.mightContain(atom)) {
filter.add(atom);
return false;
}
for (size_t j = 0; j < i; ++j) {
hash.Insert(mArray[j]);
}
usingHashTable = true;
}
return !hash.EnsureInserted(atom);
};
size_t len = mArray.Length();
UniquePtr<AttrAtomArray> deduplicatedArray;
for (size_t i = 0; i < len; ++i) {
if (!CheckDuplicate(i)) {
if (deduplicatedArray) {
deduplicatedArray->mArray.AppendElement(mArray[i]);
}
continue;
}
// We've found a duplicate!
if (!deduplicatedArray) {
// Allocate the deduplicated copy and copy the preceding elements into it.
deduplicatedArray = MakeUnique<AttrAtomArray>();
deduplicatedArray->mMayContainDuplicates = false;
deduplicatedArray->mArray.SetCapacity(len - 1);
for (size_t indexToCopy = 0; indexToCopy < i; indexToCopy++) {
deduplicatedArray->mArray.AppendElement(mArray[indexToCopy]);
}
}
}
if (!deduplicatedArray) {
// This AttrAtomArray doesn't contain any duplicates, cache this information
// for future invocations.
mMayContainDuplicates = false;
}
return deduplicatedArray;
}
uint32_t nsAttrValue::GetAtomCount() const {
ValueType type = Type();
if (type == eAtom) {
return 1;
}
if (type == eAtomArray) {
return GetAtomArrayValue()->mArray.Length();
}
return 0;
}
nsAtom* nsAttrValue::AtomAt(int32_t aIndex) const {
MOZ_ASSERT(aIndex >= 0, "Index must not be negative");
MOZ_ASSERT(GetAtomCount() > uint32_t(aIndex), "aIndex out of range");
if (BaseType() == eAtomBase) {
return GetAtomValue();
}
NS_ASSERTION(Type() == eAtomArray, "GetAtomCount must be confused");
return GetAtomArrayValue()->mArray.ElementAt(aIndex);
}
uint32_t nsAttrValue::HashValue() const {
switch (BaseType()) {
case eStringBase: {
if (auto* str = static_cast<nsStringBuffer*>(GetPtr())) {
uint32_t len = str->StorageSize() / sizeof(char16_t) - 1;
return HashString(static_cast<char16_t*>(str->Data()), len);
}
return 0;
}
case eOtherBase: {
break;
}
case eAtomBase:
case eIntegerBase: {
// mBits and uint32_t might have different size. This should silence
// any warnings or compile-errors. This is what the implementation of
// NS_PTR_TO_INT32 does to take care of the same problem.
return mBits - 0;
}
}
MiscContainer* cont = GetMiscContainer();
if (static_cast<ValueBaseType>(cont->mStringBits &
NS_ATTRVALUE_BASETYPE_MASK) == eAtomBase) {
return cont->mStringBits - 0;
}
switch (cont->mType) {
case eInteger: {
return cont->mValue.mInteger;
}
case eEnum: {
return cont->mValue.mEnumValue;
}
case ePercent: {
return cont->mDoubleValue;
}
case eColor: {
return cont->mValue.mColor;
}
case eCSSDeclaration: {
return NS_PTR_TO_INT32(cont->mValue.mCSSDeclaration);
}
case eURL: {
nsString str;
ToString(str);
return HashString(str);
}
case eAtomArray: {
uint32_t hash = 0;
for (const auto& atom : cont->mValue.mAtomArray->mArray) {
hash = AddToHash(hash, atom.get());
}
return hash;
}
case eDoubleValue: {
// XXX this is crappy, but oh well
return cont->mDoubleValue;
}
default: {
if (IsSVGType(cont->mType)) {
// All SVG types are just pointers to classes so we can treat them alike
return NS_PTR_TO_INT32(cont->mValue.mSVGLength);
}
MOZ_ASSERT_UNREACHABLE("unknown type stored in MiscContainer");
return 0;
}
}
}
bool nsAttrValue::Equals(const nsAttrValue& aOther) const {
if (BaseType() != aOther.BaseType()) {
return false;
}
switch (BaseType()) {
case eStringBase: {
return GetStringValue().Equals(aOther.GetStringValue());
}
case eOtherBase: {
break;
}
case eAtomBase:
case eIntegerBase: {
return mBits == aOther.mBits;
}
}
MiscContainer* thisCont = GetMiscContainer();
MiscContainer* otherCont = aOther.GetMiscContainer();
if (thisCont == otherCont) {
return true;
}
if (thisCont->mType != otherCont->mType) {
return false;
}
bool needsStringComparison = false;
switch (thisCont->mType) {
case eInteger: {
if (thisCont->mValue.mInteger == otherCont->mValue.mInteger) {
needsStringComparison = true;
}
break;
}
case eEnum: {
if (thisCont->mValue.mEnumValue == otherCont->mValue.mEnumValue) {
needsStringComparison = true;
}
break;
}
case ePercent: {
if (thisCont->mDoubleValue == otherCont->mDoubleValue) {
needsStringComparison = true;
}
break;
}
case eColor: {
if (thisCont->mValue.mColor == otherCont->mValue.mColor) {
needsStringComparison = true;
}
break;
}
case eCSSDeclaration: {
return thisCont->mValue.mCSSDeclaration ==
otherCont->mValue.mCSSDeclaration;
}
case eURL: {
return thisCont->mValue.mURL == otherCont->mValue.mURL;
}
case eAtomArray: {
// For classlists we could be insensitive to order, however
// classlists are never mapped attributes so they are never compared.
if (!(*thisCont->mValue.mAtomArray == *otherCont->mValue.mAtomArray)) {
return false;
}
needsStringComparison = true;
break;
}
case eDoubleValue: {
return thisCont->mDoubleValue == otherCont->mDoubleValue;
}
default: {
if (IsSVGType(thisCont->mType)) {
// Currently this method is never called for nsAttrValue objects that
// point to SVG data types.
// If that changes then we probably want to add methods to the
// corresponding SVG types to compare their base values.
// As a shortcut, however, we can begin by comparing the pointers.
MOZ_ASSERT(false, "Comparing nsAttrValues that point to SVG data");
return false;
}
MOZ_ASSERT_UNREACHABLE("unknown type stored in MiscContainer");
return false;
}
}
if (needsStringComparison) {
if (thisCont->mStringBits == otherCont->mStringBits) {
return true;
}
if ((static_cast<ValueBaseType>(thisCont->mStringBits &
NS_ATTRVALUE_BASETYPE_MASK) ==
eStringBase) &&
(static_cast<ValueBaseType>(otherCont->mStringBits &
NS_ATTRVALUE_BASETYPE_MASK) ==
eStringBase)) {
return nsCheapString(reinterpret_cast<nsStringBuffer*>(
static_cast<uintptr_t>(thisCont->mStringBits)))
.Equals(nsCheapString(reinterpret_cast<nsStringBuffer*>(
static_cast<uintptr_t>(otherCont->mStringBits))));
}
}
return false;
}
bool nsAttrValue::Equals(const nsAString& aValue,
nsCaseTreatment aCaseSensitive) const {
switch (BaseType()) {
case eStringBase: {
if (auto* str = static_cast<nsStringBuffer*>(GetPtr())) {
nsDependentString dep(static_cast<char16_t*>(str->Data()),
str->StorageSize() / sizeof(char16_t) - 1);
return aCaseSensitive == eCaseMatters
? aValue.Equals(dep)
: nsContentUtils::EqualsIgnoreASCIICase(aValue, dep);
}
return aValue.IsEmpty();
}
case eAtomBase: {
auto* atom = static_cast<nsAtom*>(GetPtr());
if (aCaseSensitive == eCaseMatters) {
return atom->Equals(aValue);
}
return nsContentUtils::EqualsIgnoreASCIICase(nsDependentAtomString(atom),
aValue);
}
default:
break;
}
nsAutoString val;
ToString(val);
return aCaseSensitive == eCaseMatters
? val.Equals(aValue)
: nsContentUtils::EqualsIgnoreASCIICase(val, aValue);
}
bool nsAttrValue::Equals(const nsAtom* aValue,
nsCaseTreatment aCaseSensitive) const {
switch (BaseType()) {
case eAtomBase: {
auto* atom = static_cast<nsAtom*>(GetPtr());
if (atom == aValue) {
return true;
}
if (aCaseSensitive == eCaseMatters) {
return false;
}
if (atom->IsAsciiLowercase() && aValue->IsAsciiLowercase()) {
return false;
}
return nsContentUtils::EqualsIgnoreASCIICase(
nsDependentAtomString(atom), nsDependentAtomString(aValue));
}
case eStringBase: {
if (auto* str = static_cast<nsStringBuffer*>(GetPtr())) {
size_t strLen = str->StorageSize() / sizeof(char16_t) - 1;
if (aValue->GetLength() != strLen) {
return false;
}
const char16_t* strData = static_cast<char16_t*>(str->Data());
const char16_t* valData = aValue->GetUTF16String();
if (aCaseSensitive == eCaseMatters) {
// Avoid string construction / destruction for the easy case.
return ArrayEqual(strData, valData, strLen);
}
nsDependentSubstring depStr(strData, strLen);
nsDependentSubstring depVal(valData, strLen);
return nsContentUtils::EqualsIgnoreASCIICase(depStr, depVal);
}
return aValue->IsEmpty();
}
default:
break;
}
nsAutoString val;
ToString(val);
nsDependentAtomString dep(aValue);
return aCaseSensitive == eCaseMatters
? val.Equals(dep)
: nsContentUtils::EqualsIgnoreASCIICase(val, dep);
}
struct HasPrefixFn {
static bool Check(const char16_t* aAttrValue, size_t aAttrLen,
const nsAString& aSearchValue,
nsCaseTreatment aCaseSensitive) {
if (aCaseSensitive == eCaseMatters) {
if (aSearchValue.Length() > aAttrLen) {
return false;
}
return !memcmp(aAttrValue, aSearchValue.BeginReading(),
aSearchValue.Length() * sizeof(char16_t));
}
return StringBeginsWith(nsDependentString(aAttrValue, aAttrLen),
aSearchValue,
nsASCIICaseInsensitiveStringComparator);
}
};
struct HasSuffixFn {
static bool Check(const char16_t* aAttrValue, size_t aAttrLen,
const nsAString& aSearchValue,
nsCaseTreatment aCaseSensitive) {
if (aCaseSensitive == eCaseMatters) {
if (aSearchValue.Length() > aAttrLen) {
return false;
}
return !memcmp(aAttrValue + aAttrLen - aSearchValue.Length(),
aSearchValue.BeginReading(),
aSearchValue.Length() * sizeof(char16_t));
}
return StringEndsWith(nsDependentString(aAttrValue, aAttrLen), aSearchValue,
nsASCIICaseInsensitiveStringComparator);
}
};
struct HasSubstringFn {
static bool Check(const char16_t* aAttrValue, size_t aAttrLen,
const nsAString& aSearchValue,
nsCaseTreatment aCaseSensitive) {
if (aCaseSensitive == eCaseMatters) {
if (aSearchValue.IsEmpty()) {
return true;
}
const char16_t* end = aAttrValue + aAttrLen;
return std::search(aAttrValue, end, aSearchValue.BeginReading(),
aSearchValue.EndReading()) != end;
}
return FindInReadable(aSearchValue, nsDependentString(aAttrValue, aAttrLen),
nsASCIICaseInsensitiveStringComparator);
}
};
template <typename F>
bool nsAttrValue::SubstringCheck(const nsAString& aValue,
nsCaseTreatment aCaseSensitive) const {
switch (BaseType()) {
case eStringBase: {
if (auto* str = static_cast<nsStringBuffer*>(GetPtr())) {
return F::Check(static_cast<char16_t*>(str->Data()),
str->StorageSize() / sizeof(char16_t) - 1, aValue,
aCaseSensitive);
}
return aValue.IsEmpty();
}
case eAtomBase: {
auto* atom = static_cast<nsAtom*>(GetPtr());
return F::Check(atom->GetUTF16String(), atom->GetLength(), aValue,
aCaseSensitive);
}
default:
break;
}
nsAutoString val;
ToString(val);
return F::Check(val.BeginReading(), val.Length(), aValue, aCaseSensitive);
}
bool nsAttrValue::HasPrefix(const nsAString& aValue,
nsCaseTreatment aCaseSensitive) const {
return SubstringCheck<HasPrefixFn>(aValue, aCaseSensitive);
}
bool nsAttrValue::HasSuffix(const nsAString& aValue,
nsCaseTreatment aCaseSensitive) const {
return SubstringCheck<HasSuffixFn>(aValue, aCaseSensitive);
}
bool nsAttrValue::HasSubstring(const nsAString& aValue,
nsCaseTreatment aCaseSensitive) const {
return SubstringCheck<HasSubstringFn>(aValue, aCaseSensitive);
}
bool nsAttrValue::EqualsAsStrings(const nsAttrValue& aOther) const {
if (Type() == aOther.Type()) {
return Equals(aOther);
}
// We need to serialize at least one nsAttrValue before passing to
// Equals(const nsAString&), but we can avoid unnecessarily serializing both
// by checking if one is already of a string type.
bool thisIsString = (BaseType() == eStringBase || BaseType() == eAtomBase);
const nsAttrValue& lhs = thisIsString ? *this : aOther;
const nsAttrValue& rhs = thisIsString ? aOther : *this;
switch (rhs.BaseType()) {
case eAtomBase:
return lhs.Equals(rhs.GetAtomValue(), eCaseMatters);
case eStringBase:
return lhs.Equals(rhs.GetStringValue(), eCaseMatters);
default: {
nsAutoString val;
rhs.ToString(val);
return lhs.Equals(val, eCaseMatters);
}
}
}
bool nsAttrValue::Contains(nsAtom* aValue,
nsCaseTreatment aCaseSensitive) const {
switch (BaseType()) {
case eAtomBase: {
nsAtom* atom = GetAtomValue();
if (aCaseSensitive == eCaseMatters) {
return aValue == atom;
}
// For performance reasons, don't do a full on unicode case insensitive
// string comparison. This is only used for quirks mode anyway.
return nsContentUtils::EqualsIgnoreASCIICase(aValue, atom);
}
default: {
if (Type() == eAtomArray) {
const AttrAtomArray* array = GetAtomArrayValue();
if (aCaseSensitive == eCaseMatters) {
return array->mArray.Contains(aValue);
}
for (const RefPtr<nsAtom>& cur : array->mArray) {
// For performance reasons, don't do a full on unicode case
// insensitive string comparison. This is only used for quirks mode
// anyway.
if (nsContentUtils::EqualsIgnoreASCIICase(aValue, cur)) {
return true;
}
}
}
}
}
return false;
}
struct AtomArrayStringComparator {
bool Equals(nsAtom* atom, const nsAString& string) const {
return atom->Equals(string);
}
};
bool nsAttrValue::Contains(const nsAString& aValue) const {
switch (BaseType()) {
case eAtomBase: {
nsAtom* atom = GetAtomValue();
return atom->Equals(aValue);
}
default: {
if (Type() == eAtomArray) {
const AttrAtomArray* array = GetAtomArrayValue();
return array->mArray.Contains(aValue, AtomArrayStringComparator());
}
}
}
return false;
}
void nsAttrValue::ParseAtom(const nsAString& aValue) {
ResetIfSet();
RefPtr<nsAtom> atom = NS_Atomize(aValue);
if (atom) {
SetPtrValueAndType(atom.forget().take(), eAtomBase);
}
}
void nsAttrValue::ParseAtomArray(nsAtom* aValue) {
if (MiscContainer* cont = AtomArrayCache::Lookup(aValue)) {
// Set our MiscContainer to the cached one.
NS_ADDREF(cont);
SetPtrValueAndType(cont, eOtherBase);
return;
}
const char16_t* iter = aValue->GetUTF16String();
const char16_t* end = iter + aValue->GetLength();
bool hasSpace = false;
// skip initial whitespace
while (iter != end && nsContentUtils::IsHTMLWhitespace(*iter)) {
hasSpace = true;
++iter;
}
if (iter == end) {
// The value is empty or only contains whitespace.
// Set this attribute to the string value.
// We don't call the SetTo(nsAtom*) overload because doing so would
// leave us with a classList of length 1.
SetTo(nsDependentAtomString(aValue));
return;
}
const char16_t* start = iter;
// get first - and often only - atom
do {
++iter;
} while (iter != end && !nsContentUtils::IsHTMLWhitespace(*iter));
RefPtr<nsAtom> classAtom = iter == end && !hasSpace
? RefPtr<nsAtom>(aValue).forget()
: NS_AtomizeMainThread(Substring(start, iter));
if (!classAtom) {
ResetIfSet();
return;
}
// skip whitespace
while (iter != end && nsContentUtils::IsHTMLWhitespace(*iter)) {
hasSpace = true;
++iter;
}
if (iter == end && !hasSpace) {
// we only found one classname and there was no whitespace so
// don't bother storing a list
ResetIfSet();
nsAtom* atom = nullptr;
classAtom.swap(atom);
SetPtrValueAndType(atom, eAtomBase);
return;
}
// We have at least one class atom. Create a new AttrAtomArray.
AttrAtomArray* array = new AttrAtomArray;
// XXX(Bug 1631371) Check if this should use a fallible operation as it
// pretended earlier.
array->mArray.AppendElement(std::move(classAtom));
// parse the rest of the classnames
while (iter != end) {
start = iter;
do {
++iter;
} while (iter != end && !nsContentUtils::IsHTMLWhitespace(*iter));
classAtom = NS_AtomizeMainThread(Substring(start, iter));
// XXX(Bug 1631371) Check if this should use a fallible operation as it
// pretended earlier.
array->mArray.AppendElement(std::move(classAtom));
array->mMayContainDuplicates = true;
// skip whitespace
while (iter != end && nsContentUtils::IsHTMLWhitespace(*iter)) {
++iter;
}
}
// Wrap the AtomArray into a fresh MiscContainer.
MiscContainer* cont = EnsureEmptyMiscContainer();
MOZ_ASSERT(cont->mValue.mRefCount == 0);
cont->mValue.mAtomArray = array;
cont->mType = eAtomArray;
NS_ADDREF(cont);
MOZ_ASSERT(cont->mValue.mRefCount == 1);
// Assign the atom to the container's string bits (like SetMiscAtomOrString
// would do).
MOZ_ASSERT(!IsInServoTraversal());
aValue->AddRef();
uintptr_t bits = reinterpret_cast<uintptr_t>(aValue) | eAtomBase;
cont->SetStringBitsMainThread(bits);
// Put the container in the cache.
cont->Cache();
}
void nsAttrValue::ParseAtomArray(const nsAString& aValue) {
if (aValue.IsVoid()) {
ResetIfSet();
} else {
RefPtr<nsAtom> atom = NS_AtomizeMainThread(aValue);
ParseAtomArray(atom);
}
}
void nsAttrValue::ParseStringOrAtom(const nsAString& aValue) {
uint32_t len = aValue.Length();
// Don't bother with atoms if it's an empty string since
// we can store those efficiently anyway.
if (len && len <= NS_ATTRVALUE_MAX_STRINGLENGTH_ATOM) {
ParseAtom(aValue);
} else {
SetTo(aValue);
}
}
void nsAttrValue::ParsePartMapping(const nsAString& aValue) {
ResetIfSet();
MiscContainer* cont = EnsureEmptyMiscContainer();
cont->mType = eShadowParts;
cont->mValue.mShadowParts = new ShadowParts(ShadowParts::Parse(aValue));
NS_ADDREF(cont);
SetMiscAtomOrString(&aValue);
MOZ_ASSERT(cont->mValue.mRefCount == 1);
}
void nsAttrValue::SetIntValueAndType(int32_t aValue, ValueType aType,
const nsAString* aStringValue) {
if (aStringValue || aValue > NS_ATTRVALUE_INTEGERTYPE_MAXVALUE ||
aValue < NS_ATTRVALUE_INTEGERTYPE_MINVALUE) {
MiscContainer* cont = EnsureEmptyMiscContainer();
switch (aType) {
case eInteger: {
cont->mValue.mInteger = aValue;
break;
}
case ePercent: {
cont->mDoubleValue = aValue;
break;
}
case eEnum: {
cont->mValue.mEnumValue = aValue;
break;
}
default: {
MOZ_ASSERT_UNREACHABLE("unknown integer type");
break;
}
}
cont->mType = aType;
SetMiscAtomOrString(aStringValue);
} else {
NS_ASSERTION(!mBits, "Reset before calling SetIntValueAndType!");
mBits = (aValue * NS_ATTRVALUE_INTEGERTYPE_MULTIPLIER) | aType;
}
}
void nsAttrValue::SetDoubleValueAndType(double aValue, ValueType aType,
const nsAString* aStringValue) {
MOZ_ASSERT(aType == eDoubleValue || aType == ePercent, "Unexpected type");
MiscContainer* cont = EnsureEmptyMiscContainer();
cont->mDoubleValue = aValue;
cont->mType = aType;
SetMiscAtomOrString(aStringValue);
}
nsAtom* nsAttrValue::GetStoredAtom() const {
if (BaseType() == eAtomBase) {
return static_cast<nsAtom*>(GetPtr());
}
if (BaseType() == eOtherBase) {
return GetMiscContainer()->GetStoredAtom();
}
return nullptr;
}
nsStringBuffer* nsAttrValue::GetStoredStringBuffer() const {
if (BaseType() == eStringBase) {
return static_cast<nsStringBuffer*>(GetPtr());
}
if (BaseType() == eOtherBase) {
return GetMiscContainer()->GetStoredStringBuffer();
}
return nullptr;
}
int16_t nsAttrValue::GetEnumTableIndex(const EnumTable* aTable) {
int16_t index = sEnumTableArray->IndexOf(aTable);
if (index < 0) {
index = sEnumTableArray->Length();
NS_ASSERTION(index <= NS_ATTRVALUE_ENUMTABLEINDEX_MAXVALUE,
"too many enum tables");
sEnumTableArray->AppendElement(aTable);
}
return index;
}
int32_t nsAttrValue::EnumTableEntryToValue(const EnumTable* aEnumTable,
const EnumTable* aTableEntry) {
int16_t index = GetEnumTableIndex(aEnumTable);
int32_t value =
(aTableEntry->value << NS_ATTRVALUE_ENUMTABLEINDEX_BITS) + index;
return value;
}
bool nsAttrValue::ParseEnumValue(const nsAString& aValue,
const EnumTable* aTable, bool aCaseSensitive,
const EnumTable* aDefaultValue) {
ResetIfSet();
const EnumTable* tableEntry = aTable;
while (tableEntry->tag) {
if (aCaseSensitive ? aValue.EqualsASCII(tableEntry->tag)
: aValue.LowerCaseEqualsASCII(tableEntry->tag)) {
int32_t value = EnumTableEntryToValue(aTable, tableEntry);
bool equals = aCaseSensitive || aValue.EqualsASCII(tableEntry->tag);
if (!equals) {
nsAutoString tag;
tag.AssignASCII(tableEntry->tag);
nsContentUtils::ASCIIToUpper(tag);
if ((equals = tag.Equals(aValue))) {
value |= NS_ATTRVALUE_ENUMTABLE_VALUE_NEEDS_TO_UPPER;
}
}
SetIntValueAndType(value, eEnum, equals ? nullptr : &aValue);
NS_ASSERTION(GetEnumValue() == tableEntry->value,
"failed to store enum properly");
return true;
}
tableEntry++;
}
if (aDefaultValue) {
MOZ_ASSERT(aTable <= aDefaultValue && aDefaultValue < tableEntry,
"aDefaultValue not inside aTable?");
SetIntValueAndType(EnumTableEntryToValue(aTable, aDefaultValue), eEnum,
&aValue);
return true;
}
return false;
}
bool nsAttrValue::DoParseHTMLDimension(const nsAString& aInput,
bool aEnsureNonzero) {
ResetIfSet();
// We don't use nsContentUtils::ParseHTMLInteger here because we
// need a bunch of behavioral differences from it. We _could_ try to
// use it, but it would not be a great fit.
// https://html.spec.whatwg.org/multipage/#rules-for-parsing-dimension-values
// Steps 1 and 2.
const char16_t* position = aInput.BeginReading();
const char16_t* end = aInput.EndReading();
// We will need to keep track of whether this was a canonical representation
// or not. It's non-canonical if it has leading whitespace, leading '+',
// leading '0' characters, or trailing garbage.
bool canonical = true;
// Step 3.
while (position != end && nsContentUtils::IsHTMLWhitespace(*position)) {
canonical = false; // Leading whitespace
++position;
}
// Step 4.
if (position == end || *position < char16_t('0') ||
*position > char16_t('9')) {
return false;
}
// Step 5.
CheckedInt32 value = 0;
// Collect up leading '0' first to avoid extra branching in the main
// loop to set 'canonical' properly.
while (position != end && *position == char16_t('0')) {
canonical = false; // Leading '0'
++position;
}
// Now collect up other digits.
while (position != end && *position >= char16_t('0') &&
*position <= char16_t('9')) {
value = value * 10 + (*position - char16_t('0'));
if (!value.isValid()) {
// The spec assumes we can deal with arbitrary-size integers here, but we
// really can't. If someone sets something too big, just bail out and
// ignore it.
return false;
}
++position;
}
// Step 6 is implemented implicitly via the various "position != end" guards
// from this point on.
Maybe<double> doubleValue;
// Step 7. The return in step 7.2 is handled by just falling through to the
// code below this block when we reach end of input or a non-digit, because
// the while loop will terminate at that point.
if (position != end && *position == char16_t('.')) {
canonical = false; // Let's not rely on double serialization reproducing
// the string we started with.
// Step 7.1.
++position;
// If we have a '.' _not_ followed by digits, this is not as efficient as it
// could be, because we will store as a double while we could have stored as
// an int. But that seems like a pretty rare case.
doubleValue.emplace(value.value());
// Step 7.3.
double divisor = 1.0f;
// Step 7.4.
while (position != end && *position >= char16_t('0') &&
*position <= char16_t('9')) {
// Step 7.4.1.
divisor = divisor * 10.0f;
// Step 7.4.2.
doubleValue.ref() += (*position - char16_t('0')) / divisor;
// Step 7.4.3.
++position;
// Step 7.4.4 and 7.4.5 are captured in the while loop condition and the
// "position != end" checks below.
}
}
if (aEnsureNonzero && value.value() == 0 &&
(!doubleValue || *doubleValue == 0.0f)) {
// Not valid. Just drop it.
return false;
}
// Step 8 and the spec's early return from step 7.2.
ValueType type;
if (position != end && *position == char16_t('%')) {
type = ePercent;
++position;
} else if (doubleValue) {
type = eDoubleValue;
} else {
type = eInteger;
}
if (position != end) {
canonical = false;
}
if (doubleValue) {
MOZ_ASSERT(!canonical, "We set it false above!");
SetDoubleValueAndType(*doubleValue, type, &aInput);
} else {
SetIntValueAndType(value.value(), type, canonical ? nullptr : &aInput);
}
#ifdef DEBUG
nsAutoString str;
ToString(str);
MOZ_ASSERT(str == aInput, "We messed up our 'canonical' boolean!");
#endif
return true;
}
bool nsAttrValue::ParseIntWithBounds(const nsAString& aString, int32_t aMin,
int32_t aMax) {
MOZ_ASSERT(aMin < aMax, "bad boundaries");
ResetIfSet();
nsContentUtils::ParseHTMLIntegerResultFlags result;
int32_t originalVal = nsContentUtils::ParseHTMLInteger(aString, &result);
if (result & nsContentUtils::eParseHTMLInteger_Error) {
return false;
}
int32_t val = std::max(originalVal, aMin);
val = std::min(val, aMax);
bool nonStrict =
(val != originalVal) ||
(result & nsContentUtils::eParseHTMLInteger_NonStandard) ||
(result & nsContentUtils::eParseHTMLInteger_DidNotConsumeAllInput);
SetIntValueAndType(val, eInteger, nonStrict ? &aString : nullptr);
return true;
}
void nsAttrValue::ParseIntWithFallback(const nsAString& aString,
int32_t aDefault, int32_t aMax) {
ResetIfSet();
nsContentUtils::ParseHTMLIntegerResultFlags result;
int32_t val = nsContentUtils::ParseHTMLInteger(aString, &result);
bool nonStrict = false;
if ((result & nsContentUtils::eParseHTMLInteger_Error) || val < 1) {
val = aDefault;
nonStrict = true;
}
if (val > aMax) {
val = aMax;
nonStrict = true;
}
if ((result & nsContentUtils::eParseHTMLInteger_NonStandard) ||
(result & nsContentUtils::eParseHTMLInteger_DidNotConsumeAllInput)) {
nonStrict = true;
}
SetIntValueAndType(val, eInteger, nonStrict ? &aString : nullptr);
}
void nsAttrValue::ParseClampedNonNegativeInt(const nsAString& aString,
int32_t aDefault, int32_t aMin,
int32_t aMax) {
ResetIfSet();
nsContentUtils::ParseHTMLIntegerResultFlags result;
int32_t val = nsContentUtils::ParseHTMLInteger(aString, &result);
bool nonStrict =
(result & nsContentUtils::eParseHTMLInteger_NonStandard) ||
(result & nsContentUtils::eParseHTMLInteger_DidNotConsumeAllInput);
if (result & nsContentUtils::eParseHTMLInteger_ErrorOverflow) {
if (result & nsContentUtils::eParseHTMLInteger_Negative) {
val = aDefault;
} else {
val = aMax;
}
nonStrict = true;
} else if ((result & nsContentUtils::eParseHTMLInteger_Error) || val < 0) {
val = aDefault;
nonStrict = true;
} else if (val < aMin) {
val = aMin;
nonStrict = true;
} else if (val > aMax) {
val = aMax;
nonStrict = true;
}
SetIntValueAndType(val, eInteger, nonStrict ? &aString : nullptr);
}
bool nsAttrValue::ParseNonNegativeIntValue(const nsAString& aString) {
ResetIfSet();
nsContentUtils::ParseHTMLIntegerResultFlags result;
int32_t originalVal = nsContentUtils::ParseHTMLInteger(aString, &result);
if ((result & nsContentUtils::eParseHTMLInteger_Error) || originalVal < 0) {
return false;
}
bool nonStrict =
(result & nsContentUtils::eParseHTMLInteger_NonStandard) ||
(result & nsContentUtils::eParseHTMLInteger_DidNotConsumeAllInput);
SetIntValueAndType(originalVal, eInteger, nonStrict ? &aString : nullptr);
return true;
}
bool nsAttrValue::ParsePositiveIntValue(const nsAString& aString) {
ResetIfSet();
nsContentUtils::ParseHTMLIntegerResultFlags result;
int32_t originalVal = nsContentUtils::ParseHTMLInteger(aString, &result);
if ((result & nsContentUtils::eParseHTMLInteger_Error) || originalVal <= 0) {
return false;
}
bool nonStrict =
(result & nsContentUtils::eParseHTMLInteger_NonStandard) ||
(result & nsContentUtils::eParseHTMLInteger_DidNotConsumeAllInput);
SetIntValueAndType(originalVal, eInteger, nonStrict ? &aString : nullptr);
return true;
}
void nsAttrValue::SetColorValue(nscolor aColor, const nsAString& aString) {
nsStringBuffer* buf = GetStringBuffer(aString).take();
if (!buf) {
return;
}
MiscContainer* cont = EnsureEmptyMiscContainer();
cont->mValue.mColor = aColor;
cont->mType = eColor;
// Save the literal string we were passed for round-tripping.
cont->SetStringBitsMainThread(reinterpret_cast<uintptr_t>(buf) | eStringBase);
}
bool nsAttrValue::ParseColor(const nsAString& aString) {
ResetIfSet();
// FIXME (partially, at least): HTML5's algorithm says we shouldn't do
// the whitespace compression, trimming, or the test for emptiness.
// (I'm a little skeptical that we shouldn't do the whitespace
// trimming; WebKit also does it.)
nsAutoString colorStr(aString);
colorStr.CompressWhitespace(true, true);
if (colorStr.IsEmpty()) {
return false;
}
nscolor color;
// No color names begin with a '#'; in standards mode, all acceptable
// numeric colors do.
if (colorStr.First() == '#') {
nsDependentString withoutHash(colorStr.get() + 1, colorStr.Length() - 1);
if (NS_HexToRGBA(withoutHash, nsHexColorType::NoAlpha, &color)) {
SetColorValue(color, aString);
return true;
}
} else if (colorStr.LowerCaseEqualsLiteral("transparent")) {
SetColorValue(NS_RGBA(0, 0, 0, 0), aString);
return true;
} else {
const NS_ConvertUTF16toUTF8 colorNameU8(colorStr);
if (Servo_ColorNameToRgb(&colorNameU8, &color)) {
SetColorValue(color, aString);
return true;
}
}
// FIXME (maybe): HTML5 says we should handle system colors. This
// means we probably need another storage type, since we'd need to
// handle dynamic changes. However, I think this is a bad idea:
// http://lists.whatwg.org/pipermail/whatwg-whatwg.org/2010-May/026449.html
// Use NS_LooseHexToRGB as a fallback if nothing above worked.
if (NS_LooseHexToRGB(colorStr, &color)) {
SetColorValue(color, aString);
return true;
}
return false;
}
bool nsAttrValue::ParseDoubleValue(const nsAString& aString) {
ResetIfSet();
nsresult ec;
double val = PromiseFlatString(aString).ToDouble(&ec);
if (NS_FAILED(ec)) {
return false;
}
MiscContainer* cont = EnsureEmptyMiscContainer();
cont->mDoubleValue = val;
cont->mType = eDoubleValue;
nsAutoString serializedFloat;
serializedFloat.AppendFloat(val);
SetMiscAtomOrString(serializedFloat.Equals(aString) ? nullptr : &aString);
return true;
}
bool nsAttrValue::ParseStyleAttribute(const nsAString& aString,
nsIPrincipal* aMaybeScriptedPrincipal,
nsStyledElement* aElement) {
dom::Document* doc = aElement->OwnerDoc();
AttributeStyles* attrStyles = doc->GetAttributeStyles();
NS_ASSERTION(aElement->NodePrincipal() == doc->NodePrincipal(),
"This is unexpected");
nsIPrincipal* principal = aMaybeScriptedPrincipal ? aMaybeScriptedPrincipal
: aElement->NodePrincipal();
RefPtr<URLExtraData> data = aElement->GetURLDataForStyleAttr(principal);
// If the (immutable) document URI does not match the element's base URI
// (the common case is that they do match) do not cache the rule. This is
// because the results of the CSS parser are dependent on these URIs, and we
// do not want to have to account for the URIs in the hash lookup.
// Similarly, if the triggering principal does not match the node principal,
// do not cache the rule, since the principal will be encoded in any parsed
// URLs in the rule.
const bool cachingAllowed = attrStyles &&
doc->GetDocumentURI() == data->BaseURI() &&
principal == aElement->NodePrincipal();
if (cachingAllowed) {
if (MiscContainer* cont = attrStyles->LookupStyleAttr(aString)) {
// Set our MiscContainer to the cached one.
NS_ADDREF(cont);
SetPtrValueAndType(cont, eOtherBase);
return true;
}
}
RefPtr<DeclarationBlock> decl =
DeclarationBlock::FromCssText(aString, data, doc->GetCompatibilityMode(),
doc->CSSLoader(), StyleCssRuleType::Style);
if (!decl) {
return false;
}
decl->SetAttributeStyles(attrStyles);
SetTo(decl.forget(), &aString);
if (cachingAllowed) {
MiscContainer* cont = GetMiscContainer();
cont->Cache();
}
return true;
}
void nsAttrValue::SetMiscAtomOrString(const nsAString* aValue) {
NS_ASSERTION(GetMiscContainer(), "Must have MiscContainer!");
NS_ASSERTION(!GetMiscContainer()->mStringBits || IsInServoTraversal(),
"Trying to re-set atom or string!");
if (aValue) {
uint32_t len = aValue->Length();
// * We're allowing eCSSDeclaration attributes to store empty
// strings as it can be beneficial to store an empty style
// attribute as a parsed rule.
// * We're allowing enumerated values because sometimes the empty
// string corresponds to a particular enumerated value, especially
// for enumerated values that are not limited enumerated.
// Add other types as needed.
NS_ASSERTION(len || Type() == eCSSDeclaration || Type() == eEnum,
"Empty string?");
MiscContainer* cont = GetMiscContainer();
if (len <= NS_ATTRVALUE_MAX_STRINGLENGTH_ATOM) {
nsAtom* atom = MOZ_LIKELY(!IsInServoTraversal())
? NS_AtomizeMainThread(*aValue).take()
: NS_Atomize(*aValue).take();
NS_ENSURE_TRUE_VOID(atom);
uintptr_t bits = reinterpret_cast<uintptr_t>(atom) | eAtomBase;
// In the common case we're not in the servo traversal, and we can just
// set the bits normally. The parallel case requires more care.
if (MOZ_LIKELY(!IsInServoTraversal())) {
cont->SetStringBitsMainThread(bits);
} else if (!cont->mStringBits.compareExchange(0, bits)) {
// We raced with somebody else setting the bits. Release our copy.
atom->Release();
}
} else {
nsStringBuffer* buffer = GetStringBuffer(*aValue).take();
NS_ENSURE_TRUE_VOID(buffer);
uintptr_t bits = reinterpret_cast<uintptr_t>(buffer) | eStringBase;
// In the common case we're not in the servo traversal, and we can just
// set the bits normally. The parallel case requires more care.
if (MOZ_LIKELY(!IsInServoTraversal())) {
cont->SetStringBitsMainThread(bits);
} else if (!cont->mStringBits.compareExchange(0, bits)) {
// We raced with somebody else setting the bits. Release our copy.
buffer->Release();
}
}
}
}
void nsAttrValue::ResetMiscAtomOrString() {
MiscContainer* cont = GetMiscContainer();
bool isString;
if (void* ptr = cont->GetStringOrAtomPtr(isString)) {
if (isString) {
static_cast<nsStringBuffer*>(ptr)->Release();
} else {
static_cast<nsAtom*>(ptr)->Release();
}
cont->SetStringBitsMainThread(0);
}
}
void nsAttrValue::SetSVGType(ValueType aType, const void* aValue,
const nsAString* aSerialized) {
MOZ_ASSERT(IsSVGType(aType), "Not an SVG type");
MiscContainer* cont = EnsureEmptyMiscContainer();
// All SVG types are just pointers to classes so just setting any of them
// will do. We'll lose type-safety but the signature of the calling
// function should ensure we don't get anything unexpected, and once we
// stick aValue in a union we lose type information anyway.
cont->mValue.mSVGLength = static_cast<const SVGAnimatedLength*>(aValue);
cont->mType = aType;
SetMiscAtomOrString(aSerialized);
}
MiscContainer* nsAttrValue::ClearMiscContainer() {
MiscContainer* cont = nullptr;
if (BaseType() == eOtherBase) {
cont = GetMiscContainer();
if (cont->IsRefCounted() && cont->mValue.mRefCount > 1) {
// This MiscContainer is shared, we need a new one.
NS_RELEASE(cont);
cont = AllocMiscContainer();
SetPtrValueAndType(cont, eOtherBase);
} else {
switch (cont->mType) {
case eCSSDeclaration: {
MOZ_ASSERT(cont->mValue.mRefCount == 1);
cont->Release();
cont->Evict();
NS_RELEASE(cont->mValue.mCSSDeclaration);
break;
}
case eShadowParts: {
MOZ_ASSERT(cont->mValue.mRefCount == 1);
cont->Release();
delete cont->mValue.mShadowParts;
break;
}
case eURL: {
NS_RELEASE(cont->mValue.mURL);
break;
}
case eAtomArray: {
MOZ_ASSERT(cont->mValue.mRefCount == 1);
cont->Release();
cont->Evict();
delete cont->mValue.mAtomArray;
break;
}
default: {
break;
}
}
}
ResetMiscAtomOrString();
} else {
ResetIfSet();
}
return cont;
}
MiscContainer* nsAttrValue::EnsureEmptyMiscContainer() {
MiscContainer* cont = ClearMiscContainer();
if (cont) {
MOZ_ASSERT(BaseType() == eOtherBase);
ResetMiscAtomOrString();
cont = GetMiscContainer();
} else {
cont = AllocMiscContainer();
SetPtrValueAndType(cont, eOtherBase);
}
return cont;
}
already_AddRefed<nsStringBuffer> nsAttrValue::GetStringBuffer(
const nsAString& aValue) const {
uint32_t len = aValue.Length();
if (!len) {
return nullptr;
}
if (nsStringBuffer* buf = aValue.GetStringBuffer();
buf && (buf->StorageSize() / sizeof(char16_t) - 1) == len) {
// We can only reuse the buffer if it's exactly sized, since we rely on
// StorageSize() to get the string length in ToString().
return do_AddRef(buf);
}
return nsStringBuffer::Create(aValue.Data(), aValue.Length());
}
size_t nsAttrValue::SizeOfExcludingThis(MallocSizeOf aMallocSizeOf) const {
size_t n = 0;
switch (BaseType()) {
case eStringBase: {
nsStringBuffer* str = static_cast<nsStringBuffer*>(GetPtr());
n += str ? str->SizeOfIncludingThisIfUnshared(aMallocSizeOf) : 0;
break;
}
case eOtherBase: {
MiscContainer* container = GetMiscContainer();
if (!container) {
break;
}
if (container->IsRefCounted() && container->mValue.mRefCount > 1) {
// We don't report this MiscContainer at all in order to avoid
// twice-reporting it.
// TODO DMD, bug 1027551 - figure out how to report this ref-counted
// object just once.
break;
}
n += aMallocSizeOf(container);
// We only count the size of the object pointed by otherPtr if it's a
// string. When it's an atom, it's counted separatly.
if (nsStringBuffer* buf = container->GetStoredStringBuffer()) {
n += buf->SizeOfIncludingThisIfUnshared(aMallocSizeOf);
}
if (Type() == eCSSDeclaration && container->mValue.mCSSDeclaration) {
// TODO: mCSSDeclaration might be owned by another object which
// would make us count them twice, bug 677493.
// Bug 1281964: For DeclarationBlock if we do measure we'll
// need a way to call the Servo heap_size_of function.
// n += container->mCSSDeclaration->SizeOfIncludingThis(aMallocSizeOf);
} else if (Type() == eAtomArray && container->mValue.mAtomArray) {
// Don't measure each nsAtom, they are measured separatly.
n += container->mValue.mAtomArray->mArray.ShallowSizeOfIncludingThis(
aMallocSizeOf);
}
break;
}
case eAtomBase: // Atoms are counted separately.
case eIntegerBase: // The value is in mBits, nothing to do.
break;
}
return n;
}
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