//===-- vector.h ------------------------------------------------*- C++ -*-===// // // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions. // See https://llvm.org/LICENSE.txt for license information. // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception // //===----------------------------------------------------------------------===// #ifndef SCUDO_VECTOR_H_ #define SCUDO_VECTOR_H_ #include "mem_map.h" #include namespace scudo { // A low-level vector based on map. It stores the contents inline up to a fixed // capacity, or in an external memory buffer if it grows bigger than that. May // incur a significant memory overhead for small vectors. The current // implementation supports only POD types. // // NOTE: This class is not meant to be used directly, use Vector instead. template class VectorNoCtor { public: T &operator[](uptr I) { DCHECK_LT(I, Size); return Data[I]; } const T &operator[](uptr I) const { DCHECK_LT(I, Size); return Data[I]; } void push_back(const T &Element) { DCHECK_LE(Size, capacity()); if (Size == capacity()) { const uptr NewCapacity = roundUpPowerOfTwo(Size + 1); reallocate(NewCapacity); } memcpy(&Data[Size++], &Element, sizeof(T)); } T &back() { DCHECK_GT(Size, 0); return Data[Size - 1]; } void pop_back() { DCHECK_GT(Size, 0); Size--; } uptr size() const { return Size; } const T *data() const { return Data; } T *data() { return Data; } constexpr uptr capacity() const { return CapacityBytes / sizeof(T); } void reserve(uptr NewSize) { // Never downsize internal buffer. if (NewSize > capacity()) reallocate(NewSize); } void resize(uptr NewSize) { if (NewSize > Size) { reserve(NewSize); memset(&Data[Size], 0, sizeof(T) * (NewSize - Size)); } Size = NewSize; } void clear() { Size = 0; } bool empty() const { return size() == 0; } const T *begin() const { return data(); } T *begin() { return data(); } const T *end() const { return data() + size(); } T *end() { return data() + size(); } protected: constexpr void init(uptr InitialCapacity = 0) { Data = &LocalData[0]; CapacityBytes = sizeof(LocalData); if (InitialCapacity > capacity()) reserve(InitialCapacity); } void destroy() { if (Data != &LocalData[0]) ExternalBuffer.unmap(ExternalBuffer.getBase(), ExternalBuffer.getCapacity()); } private: void reallocate(uptr NewCapacity) { DCHECK_GT(NewCapacity, 0); DCHECK_LE(Size, NewCapacity); MemMapT NewExternalBuffer; NewCapacity = roundUp(NewCapacity * sizeof(T), getPageSizeCached()); NewExternalBuffer.map(/*Addr=*/0U, NewCapacity, "scudo:vector"); T *NewExternalData = reinterpret_cast(NewExternalBuffer.getBase()); memcpy(NewExternalData, Data, Size * sizeof(T)); destroy(); Data = NewExternalData; CapacityBytes = NewCapacity; ExternalBuffer = NewExternalBuffer; } T *Data = nullptr; uptr CapacityBytes = 0; uptr Size = 0; T LocalData[256 / sizeof(T)] = {}; MemMapT ExternalBuffer; }; template class Vector : public VectorNoCtor { public: constexpr Vector() { VectorNoCtor::init(); } explicit Vector(uptr Count) { VectorNoCtor::init(Count); this->resize(Count); } ~Vector() { VectorNoCtor::destroy(); } // Disallow copies and moves. Vector(const Vector &) = delete; Vector &operator=(const Vector &) = delete; Vector(Vector &&) = delete; Vector &operator=(Vector &&) = delete; }; } // namespace scudo #endif // SCUDO_VECTOR_H_