/* -*- Mode: C++; tab-width: 20; indent-tabs-mode: nil; c-basic-offset: 2 -*- * 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/. */ #ifndef FRAMEPROPERTYTABLE_H_ #define FRAMEPROPERTYTABLE_H_ #include "mozilla/MemoryReporting.h" #include "mozilla/TypeTraits.h" #include "mozilla/Unused.h" #include "nsTArray.h" #include "nsTHashtable.h" #include "nsHashKeys.h" class nsIFrame; namespace mozilla { struct FramePropertyDescriptorUntyped { /** * mDestructor will be called if it's non-null. */ typedef void UntypedDestructor(void* aPropertyValue); UntypedDestructor* mDestructor; /** * mDestructorWithFrame will be called if it's non-null and mDestructor * is null. WARNING: The frame passed to mDestructorWithFrame may * be a dangling frame pointer, if this is being called during * presshell teardown. Do not use it except to compare against * other frame pointers. No frame will have been allocated with * the same address yet. */ typedef void UntypedDestructorWithFrame(const nsIFrame* aFrame, void* aPropertyValue); UntypedDestructorWithFrame* mDestructorWithFrame; /** * mDestructor and mDestructorWithFrame may both be null, in which case * no value destruction is a no-op. */ protected: /** * At most one destructor should be passed in. In general, you should * just use the static function FramePropertyDescriptor::New* below * instead of using this constructor directly. */ constexpr FramePropertyDescriptorUntyped( UntypedDestructor* aDtor, UntypedDestructorWithFrame* aDtorWithFrame) : mDestructor(aDtor) , mDestructorWithFrame(aDtorWithFrame) {} }; /** * A pointer to a FramePropertyDescriptor serves as a unique property ID. * The FramePropertyDescriptor stores metadata about the property. * Currently the only metadata is a destructor function. The destructor * function is called on property values when they are overwritten or * deleted. * * To use this class, declare a global (i.e., file, class or function-scope * static member) FramePropertyDescriptor and pass its address as * aProperty in the FramePropertyTable methods. */ template struct FramePropertyDescriptor : public FramePropertyDescriptorUntyped { typedef void Destructor(T* aPropertyValue); typedef void DestructorWithFrame(const nsIFrame* aaFrame, T* aPropertyValue); template static constexpr const FramePropertyDescriptor NewWithDestructor() { return { Destruct, nullptr }; } template static constexpr const FramePropertyDescriptor NewWithDestructorWithFrame() { return { nullptr, DestructWithFrame }; } static constexpr const FramePropertyDescriptor NewWithoutDestructor() { return { nullptr, nullptr }; } private: constexpr FramePropertyDescriptor( UntypedDestructor* aDtor, UntypedDestructorWithFrame* aDtorWithFrame) : FramePropertyDescriptorUntyped(aDtor, aDtorWithFrame) {} template static void Destruct(void* aPropertyValue) { Dtor(static_cast(aPropertyValue)); } template static void DestructWithFrame(const nsIFrame* aFrame, void* aPropertyValue) { Dtor(aFrame, static_cast(aPropertyValue)); } }; // SmallValueHolder is a placeholder intended to be used as template // argument of FramePropertyDescriptor for types which can fit into the // size of a pointer directly. This class should never be defined, so // that we won't use it for unexpected purpose by mistake. template class SmallValueHolder; namespace detail { template struct FramePropertyTypeHelper { typedef T* Type; }; template struct FramePropertyTypeHelper> { typedef T Type; }; } /** * The FramePropertyTable is optimized for storing 0 or 1 properties on * a given frame. Storing very large numbers of properties on a single * frame will not be efficient. * * Property values are passed as void* but do not actually have to be * valid pointers. You can use NS_INT32_TO_PTR/NS_PTR_TO_INT32 to * store int32_t values. Null/zero values can be stored and retrieved. * Of course, the destructor function (if any) must handle such values * correctly. */ class FramePropertyTable { public: template using Descriptor = const FramePropertyDescriptor*; using UntypedDescriptor = const FramePropertyDescriptorUntyped*; template using PropertyType = typename detail::FramePropertyTypeHelper::Type; FramePropertyTable() : mLastFrame(nullptr), mLastEntry(nullptr) { } ~FramePropertyTable() { DeleteAll(); } /** * Set a property value on a frame. This requires one hashtable * lookup (using the frame as the key) and a linear search through * the properties of that frame. Any existing value for the property * is destroyed. */ template void Set(const nsIFrame* aFrame, Descriptor aProperty, PropertyType aValue) { void* ptr = ReinterpretHelper::ToPointer(aValue); SetInternal(aFrame, aProperty, ptr); } /** * @return true if @aProperty is set for @aFrame. This requires one hashtable * lookup (using the frame as the key) and a linear search through the * properties of that frame. * * In most cases, this shouldn't be used outside of assertions, because if * you're doing a lookup anyway it would be far more efficient to call Get() * or Remove() and check the aFoundResult outparam to find out whether the * property is set. Legitimate non-assertion uses include: * * - Checking if a frame property is set in cases where that's all we want * to know (i.e., we don't intend to read the actual value or remove the * property). * * - Calling Has() before Set() in cases where we don't want to overwrite * an existing value for the frame property. */ template bool Has(const nsIFrame* aFrame, Descriptor aProperty) { bool foundResult = false; mozilla::Unused << GetInternal(aFrame, aProperty, &foundResult); return foundResult; } /** * Get a property value for a frame. This requires one hashtable * lookup (using the frame as the key) and a linear search through * the properties of that frame. If the frame has no such property, * returns zero-filled result, which means null for pointers and * zero for integers and floating point types. * @param aFoundResult if non-null, receives a value 'true' iff * the frame has a value for the property. This lets callers * disambiguate a null result, which can mean 'no such property' or * 'property value is null'. */ template PropertyType Get(const nsIFrame* aFrame, Descriptor aProperty, bool* aFoundResult = nullptr) { void* ptr = GetInternal(aFrame, aProperty, aFoundResult); return ReinterpretHelper::FromPointer(ptr); } /** * Remove a property value for a frame. This requires one hashtable * lookup (using the frame as the key) and a linear search through * the properties of that frame. The old property value is returned * (and not destroyed). If the frame has no such property, * returns zero-filled result, which means null for pointers and * zero for integers and floating point types. * @param aFoundResult if non-null, receives a value 'true' iff * the frame had a value for the property. This lets callers * disambiguate a null result, which can mean 'no such property' or * 'property value is null'. */ template PropertyType Remove(const nsIFrame* aFrame, Descriptor aProperty, bool* aFoundResult = nullptr) { void* ptr = RemoveInternal(aFrame, aProperty, aFoundResult); return ReinterpretHelper::FromPointer(ptr); } /** * Remove and destroy a property value for a frame. This requires one * hashtable lookup (using the frame as the key) and a linear search * through the properties of that frame. If the frame has no such * property, nothing happens. */ template void Delete(const nsIFrame* aFrame, Descriptor aProperty) { DeleteInternal(aFrame, aProperty); } /** * Remove and destroy all property values for a frame. This requires one * hashtable lookup (using the frame as the key). */ void DeleteAllFor(const nsIFrame* aFrame); /** * Remove and destroy all property values for all frames. */ void DeleteAll(); size_t SizeOfExcludingThis(mozilla::MallocSizeOf aMallocSizeOf) const; protected: void SetInternal(const nsIFrame* aFrame, UntypedDescriptor aProperty, void* aValue); void* GetInternal(const nsIFrame* aFrame, UntypedDescriptor aProperty, bool* aFoundResult); void* RemoveInternal(const nsIFrame* aFrame, UntypedDescriptor aProperty, bool* aFoundResult); void DeleteInternal(const nsIFrame* aFrame, UntypedDescriptor aProperty); template struct ReinterpretHelper { static_assert(sizeof(PropertyType) <= sizeof(void*), "size of the value must never be larger than a pointer"); static void* ToPointer(PropertyType aValue) { void* ptr = nullptr; memcpy(&ptr, &aValue, sizeof(aValue)); return ptr; } static PropertyType FromPointer(void* aPtr) { PropertyType value; memcpy(&value, &aPtr, sizeof(value)); return value; } }; template struct ReinterpretHelper { static void* ToPointer(T* aValue) { return static_cast(aValue); } static T* FromPointer(void* aPtr) { return static_cast(aPtr); } }; /** * Stores a property descriptor/value pair. It can also be used to * store an nsTArray of PropertyValues. */ struct PropertyValue { PropertyValue() : mProperty(nullptr), mValue(nullptr) {} PropertyValue(UntypedDescriptor aProperty, void* aValue) : mProperty(aProperty), mValue(aValue) {} bool IsArray() { return !mProperty && mValue; } nsTArray* ToArray() { NS_ASSERTION(IsArray(), "Must be array"); return reinterpret_cast*>(&mValue); } void DestroyValueFor(const nsIFrame* aFrame) { if (mProperty->mDestructor) { mProperty->mDestructor(mValue); } else if (mProperty->mDestructorWithFrame) { mProperty->mDestructorWithFrame(aFrame, mValue); } } size_t SizeOfExcludingThis(mozilla::MallocSizeOf aMallocSizeOf) { size_t n = 0; // We don't need to measure mProperty because it always points to static // memory. As for mValue: if it's a single value we can't measure it, // because the type is opaque; if it's an array, we measure the array // storage, but we can't measure the individual values, again because // their types are opaque. if (IsArray()) { nsTArray* array = ToArray(); n += array->ShallowSizeOfExcludingThis(aMallocSizeOf); } return n; } UntypedDescriptor mProperty; void* mValue; }; /** * Used with an array of PropertyValues to allow lookups that compare * only on the FramePropertyDescriptor. */ class PropertyComparator { public: bool Equals(const PropertyValue& a, const PropertyValue& b) const { return a.mProperty == b.mProperty; } bool Equals(UntypedDescriptor a, const PropertyValue& b) const { return a == b.mProperty; } bool Equals(const PropertyValue& a, UntypedDescriptor b) const { return a.mProperty == b; } }; /** * Our hashtable entry. The key is an nsIFrame*, the value is a * PropertyValue representing one or more property/value pairs. */ class Entry : public nsPtrHashKey { public: explicit Entry(KeyTypePointer aKey) : nsPtrHashKey(aKey) {} Entry(const Entry &toCopy) : nsPtrHashKey(toCopy), mProp(toCopy.mProp) {} size_t SizeOfExcludingThis(mozilla::MallocSizeOf aMallocSizeOf) { return mProp.SizeOfExcludingThis(aMallocSizeOf); } PropertyValue mProp; }; static void DeleteAllForEntry(Entry* aEntry); // Note that mLastEntry points into mEntries, so we need to be careful about // not triggering a resize of mEntries, e.g. use RawRemoveEntry() instead of // RemoveEntry() in some places. nsTHashtable mEntries; const nsIFrame* mLastFrame; Entry* mLastEntry; }; /** * This class encapsulates the properties of a frame. */ class FrameProperties { public: template using Descriptor = FramePropertyTable::Descriptor; template using PropertyType = FramePropertyTable::PropertyType; FrameProperties(FramePropertyTable* aTable, const nsIFrame* aFrame) : mTable(aTable), mFrame(aFrame) {} template void Set(Descriptor aProperty, PropertyType aValue) const { mTable->Set(mFrame, aProperty, aValue); } template bool Has(Descriptor aProperty) const { return mTable->Has(mFrame, aProperty); } template PropertyType Get(Descriptor aProperty, bool* aFoundResult = nullptr) const { return mTable->Get(mFrame, aProperty, aFoundResult); } template PropertyType Remove(Descriptor aProperty, bool* aFoundResult = nullptr) const { return mTable->Remove(mFrame, aProperty, aFoundResult); } template void Delete(Descriptor aProperty) { mTable->Delete(mFrame, aProperty); } private: FramePropertyTable* mTable; const nsIFrame* mFrame; }; } // namespace mozilla #endif /* FRAMEPROPERTYTABLE_H_ */