//===-- sanitizer_list.h ----------------------------------------*- C++ -*-===// // // The LLVM Compiler Infrastructure // // This file is distributed under the University of Illinois Open Source // License. See LICENSE.TXT for details. // //===----------------------------------------------------------------------===// // // This file contains implementation of a list class to be used by // ThreadSanitizer, etc run-times. // //===----------------------------------------------------------------------===// #ifndef SANITIZER_LIST_H #define SANITIZER_LIST_H #include "sanitizer_internal_defs.h" namespace __sanitizer { // Intrusive singly-linked list with size(), push_back(), push_front() // pop_front(), append_front() and append_back(). // This class should be a POD (so that it can be put into TLS) // and an object with all zero fields should represent a valid empty list. // This class does not have a CTOR, so clear() should be called on all // non-zero-initialized objects before using. template<class Item> struct IntrusiveList { friend class Iterator; void clear() { first_ = last_ = nullptr; size_ = 0; } bool empty() const { return size_ == 0; } uptr size() const { return size_; } void push_back(Item *x) { if (empty()) { x->next = nullptr; first_ = last_ = x; size_ = 1; } else { x->next = nullptr; last_->next = x; last_ = x; size_++; } } void push_front(Item *x) { if (empty()) { x->next = nullptr; first_ = last_ = x; size_ = 1; } else { x->next = first_; first_ = x; size_++; } } void pop_front() { CHECK(!empty()); first_ = first_->next; if (!first_) last_ = nullptr; size_--; } Item *front() { return first_; } const Item *front() const { return first_; } Item *back() { return last_; } const Item *back() const { return last_; } void append_front(IntrusiveList<Item> *l) { CHECK_NE(this, l); if (l->empty()) return; if (empty()) { *this = *l; } else if (!l->empty()) { l->last_->next = first_; first_ = l->first_; size_ += l->size(); } l->clear(); } void append_back(IntrusiveList<Item> *l) { CHECK_NE(this, l); if (l->empty()) return; if (empty()) { *this = *l; } else { last_->next = l->first_; last_ = l->last_; size_ += l->size(); } l->clear(); } void CheckConsistency() { if (size_ == 0) { CHECK_EQ(first_, 0); CHECK_EQ(last_, 0); } else { uptr count = 0; for (Item *i = first_; ; i = i->next) { count++; if (i == last_) break; } CHECK_EQ(size(), count); CHECK_EQ(last_->next, 0); } } template<class ItemTy> class IteratorBase { public: explicit IteratorBase(ItemTy *current) : current_(current) {} IteratorBase &operator++() { current_ = current_->next; return *this; } bool operator!=(IteratorBase other) const { return current_ != other.current_; } ItemTy &operator*() { return *current_; } private: ItemTy *current_; }; typedef IteratorBase<Item> Iterator; typedef IteratorBase<const Item> ConstIterator; Iterator begin() { return Iterator(first_); } Iterator end() { return Iterator(0); } ConstIterator begin() const { return ConstIterator(first_); } ConstIterator end() const { return ConstIterator(0); } // private, don't use directly. uptr size_; Item *first_; Item *last_; }; } // namespace __sanitizer #endif // SANITIZER_LIST_H