/* * Copyright (C) 2015 Apple Inc. All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * * THIS SOFTWARE IS PROVIDED BY APPLE INC. ``AS IS'' AND ANY * EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR * PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL APPLE INC. OR * CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, * EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, * PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR * PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY * OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE * OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. */ #ifndef TinyPtrSet_h #define TinyPtrSet_h #include #include namespace JSC { namespace DFG { class StructureAbstractValue; } } // namespace JSC::DFG namespace WTF { // FIXME: This currently only works for types that are pointer-like: they should have the size // of a pointer and like a pointer they should not have assignment operators, copy constructors, // non-trivial default constructors, and non-trivial destructors. It may be possible to lift all // of these restrictions. If we succeeded then this should be renamed to just TinySet. // https://bugs.webkit.org/show_bug.cgi?id=145741 template class TinyPtrSet { public: TinyPtrSet() : m_pointer(0) { setEmpty(); } TinyPtrSet(T element) : m_pointer(0) { set(element); } ALWAYS_INLINE TinyPtrSet(const TinyPtrSet& other) : m_pointer(0) { copyFrom(other); } ALWAYS_INLINE TinyPtrSet& operator=(const TinyPtrSet& other) { if (this == &other) return *this; deleteListIfNecessary(); copyFrom(other); return *this; } ~TinyPtrSet() { deleteListIfNecessary(); } void clear() { deleteListIfNecessary(); setEmpty(); } // Returns the only entry if the array has exactly one entry. T onlyEntry() const { if (isThin()) return singleEntry(); OutOfLineList* list = this->list(); if (list->m_length != 1) return T(); return list->list()[0]; } bool isEmpty() const { bool result = isThin() && !singleEntry(); if (result) ASSERT(m_pointer != reservedValue); return result; } // Returns true if the value was added, or false if the value was already there. bool add(T value) { ASSERT(value); if (isThin()) { if (singleEntry() == value) return false; if (!singleEntry()) { set(value); return true; } OutOfLineList* list = OutOfLineList::create(defaultStartingSize); list->m_length = 2; list->list()[0] = singleEntry(); list->list()[1] = value; set(list); return true; } return addOutOfLine(value); } bool remove(T value) { if (isThin()) { if (singleEntry() == value) { setEmpty(); return true; } return false; } OutOfLineList* list = this->list(); for (unsigned i = 0; i < list->m_length; ++i) { if (list->list()[i] != value) continue; list->list()[i] = list->list()[--list->m_length]; if (!list->m_length) { OutOfLineList::destroy(list); setEmpty(); } return true; } return false; } bool contains(T value) const { if (isThin()) return singleEntry() == value; return containsOutOfLine(value); } bool merge(const TinyPtrSet& other) { if (other.isThin()) { if (other.singleEntry()) return add(other.singleEntry()); return false; } OutOfLineList* list = other.list(); if (list->m_length >= 2) { if (isThin()) { OutOfLineList* myNewList = OutOfLineList::create( list->m_length + !!singleEntry()); if (singleEntry()) { myNewList->m_length = 1; myNewList->list()[0] = singleEntry(); } set(myNewList); } bool changed = false; for (unsigned i = 0; i < list->m_length; ++i) changed |= addOutOfLine(list->list()[i]); return changed; } ASSERT(list->m_length); return add(list->list()[0]); } template void forEach(const Functor& functor) const { if (isThin()) { if (!singleEntry()) return; functor(singleEntry()); return; } OutOfLineList* list = this->list(); for (unsigned i = 0; i < list->m_length; ++i) functor(list->list()[i]); } template void genericFilter(const Functor& functor) { if (isThin()) { if (!singleEntry()) return; if (functor(singleEntry())) return; clear(); return; } OutOfLineList* list = this->list(); for (unsigned i = 0; i < list->m_length; ++i) { if (functor(list->list()[i])) continue; list->list()[i--] = list->list()[--list->m_length]; } if (!list->m_length) clear(); } void filter(const TinyPtrSet& other) { if (other.isThin()) { if (!other.singleEntry() || !contains(other.singleEntry())) clear(); else { clear(); set(other.singleEntry()); } return; } genericFilter([&] (T value) { return other.containsOutOfLine(value); }); } void exclude(const TinyPtrSet& other) { if (other.isThin()) { if (other.singleEntry()) remove(other.singleEntry()); return; } genericFilter([&] (T value) { return !other.containsOutOfLine(value); }); } bool isSubsetOf(const TinyPtrSet& other) const { if (isThin()) { if (!singleEntry()) return true; return other.contains(singleEntry()); } if (other.isThin()) { if (!other.singleEntry()) return false; OutOfLineList* list = this->list(); if (list->m_length >= 2) return false; if (list->list()[0] == other.singleEntry()) return true; return false; } OutOfLineList* list = this->list(); for (unsigned i = 0; i < list->m_length; ++i) { if (!other.containsOutOfLine(list->list()[i])) return false; } return true; } bool isSupersetOf(const TinyPtrSet& other) const { return other.isSubsetOf(*this); } bool overlaps(const TinyPtrSet& other) const { if (isThin()) { if (!singleEntry()) return false; return other.contains(singleEntry()); } if (other.isThin()) { if (!other.singleEntry()) return false; return containsOutOfLine(other.singleEntry()); } OutOfLineList* list = this->list(); for (unsigned i = 0; i < list->m_length; ++i) { if (other.containsOutOfLine(list->list()[i])) return true; } return false; } size_t size() const { if (isThin()) return !!singleEntry(); return list()->m_length; } T at(size_t i) const { if (isThin()) { ASSERT(!i); ASSERT(singleEntry()); return singleEntry(); } ASSERT(i < list()->m_length); return list()->list()[i]; } T operator[](size_t i) const { return at(i); } T last() const { if (isThin()) { ASSERT(singleEntry()); return singleEntry(); } return list()->list()[list()->m_length - 1]; } class iterator { public: iterator() : m_set(nullptr) , m_index(0) { } iterator(const TinyPtrSet* set, size_t index) : m_set(set) , m_index(index) { } T operator*() const { return m_set->at(m_index); } iterator& operator++() { m_index++; return *this; } bool operator==(const iterator& other) const { return m_index == other.m_index; } bool operator!=(const iterator& other) const { return !(*this == other); } private: const TinyPtrSet* m_set; size_t m_index; }; iterator begin() const { return iterator(this, 0); } iterator end() const { return iterator(this, size()); } bool operator==(const TinyPtrSet& other) const { if (size() != other.size()) return false; return isSubsetOf(other); } private: friend class JSC::DFG::StructureAbstractValue; static const uintptr_t thinFlag = 1; static const uintptr_t reservedFlag = 2; static const uintptr_t flags = thinFlag | reservedFlag; static const uintptr_t reservedValue = 4; static const unsigned defaultStartingSize = 4; bool addOutOfLine(T value) { OutOfLineList* list = this->list(); for (unsigned i = 0; i < list->m_length; ++i) { if (list->list()[i] == value) return false; } if (list->m_length < list->m_capacity) { list->list()[list->m_length++] = value; return true; } OutOfLineList* newList = OutOfLineList::create(list->m_capacity * 2); newList->m_length = list->m_length + 1; for (unsigned i = list->m_length; i--;) newList->list()[i] = list->list()[i]; newList->list()[list->m_length] = value; OutOfLineList::destroy(list); set(newList); return true; } bool containsOutOfLine(T value) const { OutOfLineList* list = this->list(); for (unsigned i = 0; i < list->m_length; ++i) { if (list->list()[i] == value) return true; } return false; } ALWAYS_INLINE void copyFrom(const TinyPtrSet& other) { if (other.isThin() || other.m_pointer == reservedValue) { bool value = getReservedFlag(); m_pointer = other.m_pointer; setReservedFlag(value); return; } copyFromOutOfLine(other); } NEVER_INLINE void copyFromOutOfLine(const TinyPtrSet& other) { ASSERT(!other.isThin() && other.m_pointer != reservedValue); OutOfLineList* otherList = other.list(); OutOfLineList* myList = OutOfLineList::create(otherList->m_length); myList->m_length = otherList->m_length; for (unsigned i = otherList->m_length; i--;) myList->list()[i] = otherList->list()[i]; set(myList); } class OutOfLineList { public: static OutOfLineList* create(unsigned capacity) { return new (NotNull, fastMalloc(sizeof(OutOfLineList) + capacity * sizeof(T))) OutOfLineList(0, capacity); } static void destroy(OutOfLineList* list) { fastFree(list); } T* list() { return bitwise_cast(this + 1); } OutOfLineList(unsigned length, unsigned capacity) : m_length(length) , m_capacity(capacity) { } unsigned m_length; unsigned m_capacity; }; ALWAYS_INLINE void deleteListIfNecessary() { if (!isThin() && m_pointer != reservedValue) OutOfLineList::destroy(list()); } bool isThin() const { return m_pointer & thinFlag; } void* pointer() const { return bitwise_cast(m_pointer & ~flags); } T singleEntry() const { ASSERT(isThin()); return static_cast(pointer()); } OutOfLineList* list() const { ASSERT(!isThin()); return static_cast(pointer()); } void set(T value) { set(bitwise_cast(value), true); } void set(OutOfLineList* list) { set(bitwise_cast(list), false); } void setEmpty() { set(0, true); } void set(uintptr_t pointer, bool singleEntry) { m_pointer = pointer | (singleEntry ? thinFlag : 0) | (m_pointer & reservedFlag); } bool getReservedFlag() const { return m_pointer & reservedFlag; } void setReservedFlag(bool value) { if (value) m_pointer |= reservedFlag; else m_pointer &= ~reservedFlag; } uintptr_t m_pointer; }; } // namespace WTF using WTF::TinyPtrSet; #endif // TinyPtrSet_h