nsCSSPropertyIDSet.h

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/* 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/. */

/* bit vectors for sets of CSS properties */

#ifndef nsCSSPropertyIDSet_h__

#define nsCSSPropertyIDSet_h__

#include <initializer_list>

#include <limits.h>  // for CHAR_BIT

#include <ostream>

#include "mozilla/ArrayUtils.h"

// For COMPOSITOR_ANIMATABLE_PROPERTY_LIST and

// COMPOSITOR_ANIMATABLE_PROPERTY_LIST_LENGTH

#include "mozilla/AnimatedPropertyID.h"

#include "mozilla/CompositorAnimatableProperties.h"

#include "nsCSSProps.h"  // For operator<< for nsCSSPropertyID

#include "nsCSSPropertyID.h"

/**

 * nsCSSPropertyIDSet maintains a set of non-shorthand CSS properties.  In

 * other words, for each longhand CSS property we support, it has a bit

 * for whether that property is in the set.

*/

class nsCSSPropertyIDSet {

 public:

  constexpr nsCSSPropertyIDSet() : mProperties{0} {}

  // auto-generated copy-constructor OK

  explicit constexpr nsCSSPropertyIDSet(

      std::initializer_list<nsCSSPropertyID> aProperties)

      : mProperties{0} {

    for (auto property : aProperties) {

      size_t p = property;

      mProperties[p / kBitsInChunk] |= property_set_type(1)

                                       << (p % kBitsInChunk);

  void AssertInSetRange(nsCSSPropertyID aProperty) const {

    MOZ_DIAGNOSTIC_ASSERT(

        0 <= aProperty && aProperty < eCSSProperty_COUNT_no_shorthands,

        "out of bounds");

  // Conversion of aProperty to |size_t| after AssertInSetRange

  // lets the compiler generate significantly tighter code.

  void AddProperty(nsCSSPropertyID aProperty) {

    AssertInSetRange(aProperty);

    size_t p = aProperty;

    mProperties[p / kBitsInChunk] |= property_set_type(1) << (p % kBitsInChunk);

  void RemoveProperty(nsCSSPropertyID aProperty) {

    AssertInSetRange(aProperty);

    size_t p = aProperty;

    mProperties[p / kBitsInChunk] &=

        ~(property_set_type(1) << (p % kBitsInChunk));

  bool HasProperty(const mozilla::AnimatedPropertyID& aProperty) const {

    return !aProperty.IsCustom() && HasProperty(aProperty.mID);

  bool HasProperty(nsCSSPropertyID aProperty) const {

    AssertInSetRange(aProperty);

    size_t p = aProperty;

    return (mProperties[p / kBitsInChunk] &

            (property_set_type(1) << (p % kBitsInChunk))) != 0;

  // Returns an nsCSSPropertyIDSet including all properties that can be run

  // on the compositor.

  static constexpr nsCSSPropertyIDSet CompositorAnimatables() {

    return nsCSSPropertyIDSet(COMPOSITOR_ANIMATABLE_PROPERTY_LIST);

  static constexpr size_t CompositorAnimatableCount() {

    return COMPOSITOR_ANIMATABLE_PROPERTY_LIST_LENGTH;

  static constexpr size_t CompositorAnimatableDisplayItemCount() {

    // We have 3 individual transforms and 5 motion path properties, and they

    // also use DisplayItemType::TYPE_TRANSFORM.

    return COMPOSITOR_ANIMATABLE_PROPERTY_LIST_LENGTH - 8;

  static constexpr nsCSSPropertyIDSet CSSTransformProperties() {

    return nsCSSPropertyIDSet{eCSSProperty_transform, eCSSProperty_translate,

                              eCSSProperty_rotate, eCSSProperty_scale};

  static constexpr nsCSSPropertyIDSet MotionPathProperties() {

    return nsCSSPropertyIDSet{

        eCSSProperty_offset_path, eCSSProperty_offset_distance,

        eCSSProperty_offset_rotate, eCSSProperty_offset_anchor,

        eCSSProperty_offset_position};

  static constexpr nsCSSPropertyIDSet TransformLikeProperties() {

    return nsCSSPropertyIDSet{

        eCSSProperty_transform,      eCSSProperty_translate,

        eCSSProperty_rotate,         eCSSProperty_scale,

        eCSSProperty_offset_path,    eCSSProperty_offset_distance,

        eCSSProperty_offset_rotate,  eCSSProperty_offset_anchor,

        eCSSProperty_offset_position};

  static constexpr nsCSSPropertyIDSet OpacityProperties() {

    return nsCSSPropertyIDSet{eCSSProperty_opacity};

  bool Intersects(const nsCSSPropertyIDSet& aOther) const {

    for (size_t i = 0; i < mozilla::ArrayLength(mProperties); ++i) {

      if (mProperties[i] & aOther.mProperties[i]) {

        return true;

    return false;

  void Empty() { memset(mProperties, 0, sizeof(mProperties)); }

  void AssertIsEmpty(const char* aText) const {

    for (size_t i = 0; i < mozilla::ArrayLength(mProperties); ++i) {

      NS_ASSERTION(mProperties[i] == 0, aText);

  bool Equals(const nsCSSPropertyIDSet& aOther) const {

    return mozilla::ArrayEqual(mProperties, aOther.mProperties);

  bool IsEmpty() const {

    for (size_t i = 0; i < mozilla::ArrayLength(mProperties); ++i) {

      if (mProperties[i] != 0) {

        return false;

    return true;

  bool IsSubsetOf(const nsCSSPropertyIDSet& aOther) const {

    return this->Intersect(aOther).Equals(*this);

  // Return a new nsCSSPropertyIDSet which is the inverse of this set.

  nsCSSPropertyIDSet Inverse() const {

    nsCSSPropertyIDSet result;

    for (size_t i = 0; i < mozilla::ArrayLength(mProperties); ++i) {

      result.mProperties[i] = ~mProperties[i];

    return result;

  // Returns a new nsCSSPropertyIDSet with all properties that are both in

  // this set and |aOther|.

  nsCSSPropertyIDSet Intersect(const nsCSSPropertyIDSet& aOther) const {

    nsCSSPropertyIDSet result;

    for (size_t i = 0; i < mozilla::ArrayLength(mProperties); ++i) {

      result.mProperties[i] = mProperties[i] & aOther.mProperties[i];

    return result;

  // Return a new nsCSSPropertyIDSet with all properties that are in either

  // this set or |aOther| but not both.

  nsCSSPropertyIDSet Xor(const nsCSSPropertyIDSet& aOther) const {

    nsCSSPropertyIDSet result;

    for (size_t i = 0; i < mozilla::ArrayLength(mProperties); ++i) {

      result.mProperties[i] = mProperties[i] ^ aOther.mProperties[i];

    return result;

  nsCSSPropertyIDSet& operator|=(const nsCSSPropertyIDSet& aOther) {

    for (size_t i = 0; i < mozilla::ArrayLength(mProperties); ++i) {

      mProperties[i] |= aOther.mProperties[i];

    return *this;

 private:

  typedef unsigned long property_set_type;

 public:

  // number of bits in |property_set_type|.

  static const size_t kBitsInChunk = sizeof(property_set_type) * CHAR_BIT;

  // number of |property_set_type|s in the set

  static const size_t kChunkCount =

      (eCSSProperty_COUNT_no_shorthands + kBitsInChunk - 1) / kBitsInChunk;

/*

   * For fast enumeration of all the bits that are set, callers can

   * check each chunk against zero (since in normal cases few bits are

   * likely to be set).

*/

  bool HasPropertyInChunk(size_t aChunk) const {

    return mProperties[aChunk] != 0;

  bool HasPropertyAt(size_t aChunk, size_t aBit) const {

    return (mProperties[aChunk] & (property_set_type(1) << aBit)) != 0;

  static nsCSSPropertyID CSSPropertyAt(size_t aChunk, size_t aBit) {

    return nsCSSPropertyID(aChunk * kBitsInChunk + aBit);

  // Iterator for use in range-based for loops

  class Iterator {

   public:

    Iterator(Iterator&& aOther)

        : mPropertySet(aOther.mPropertySet),

          mChunk(aOther.mChunk),

          mBit(aOther.mBit) {}

    static Iterator BeginIterator(const nsCSSPropertyIDSet& aPropertySet) {

      Iterator result(aPropertySet);

      // Search for the first property.

      // Unsigned integer overflow is defined so the following is safe.

      result.mBit = -1;

      ++result;

      return result;

    static Iterator EndIterator(const nsCSSPropertyIDSet& aPropertySet) {

      Iterator result(aPropertySet);

      result.mChunk = kChunkCount;

      result.mBit = 0;

      return result;

    bool operator!=(const Iterator& aOther) const {

      return mChunk != aOther.mChunk || mBit != aOther.mBit;

    Iterator& operator++() {

      MOZ_ASSERT(mChunk < kChunkCount, "Should not iterate beyond end");

      do {

        mBit++;

      } while (mBit < kBitsInChunk &&

               !mPropertySet.HasPropertyAt(mChunk, mBit));

      if (mBit != kBitsInChunk) {

        return *this;

      do {

        mChunk++;

      } while (mChunk < kChunkCount &&

               !mPropertySet.HasPropertyInChunk(mChunk));

      mBit = 0;

      if (mChunk != kChunkCount) {

        while (mBit < kBitsInChunk &&

               !mPropertySet.HasPropertyAt(mChunk, mBit)) {

          mBit++;

      return *this;

    nsCSSPropertyID operator*() {

      MOZ_ASSERT(mChunk < kChunkCount, "Should not dereference beyond end");

      return nsCSSPropertyIDSet::CSSPropertyAt(mChunk, mBit);

   private:

    explicit Iterator(const nsCSSPropertyIDSet& aPropertySet)

        : mPropertySet(aPropertySet) {}

    Iterator() = delete;

    Iterator(const Iterator&) = delete;

    Iterator& operator=(const Iterator&) = delete;

    Iterator& operator=(const Iterator&&) = delete;

    const nsCSSPropertyIDSet& mPropertySet;

    size_t mChunk = 0;

    size_t mBit = 0;

};

  Iterator begin() const { return Iterator::BeginIterator(*this); }

  Iterator end() const { return Iterator::EndIterator(*this); }

 private:

  property_set_type mProperties[kChunkCount];

};

// MOZ_DBG support

inline std::ostream& operator<<(std::ostream& aOut,

                                const nsCSSPropertyIDSet& aPropertySet) {

  AutoTArray<nsCSSPropertyID, 16> properties;

  for (nsCSSPropertyID property : aPropertySet) {

    properties.AppendElement(property);

  return aOut << properties;

#endif /* !defined(nsCSSPropertyIDSet_h__) */