/* -*- Mode: C++; tab-width: 4; indent-tabs-mode: nil; c-basic-offset: 4 -*- * vim: set ts=8 sw=4 et tw=99 ft=cpp: * * 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/. */ /* * Implements a smart pointer asserted to remain within a range specified at * construction. */ #ifndef mozilla_RangedPtr_h_ #define mozilla_RangedPtr_h_ #include "mozilla/Assertions.h" #include "mozilla/Attributes.h" #include "mozilla/Util.h" namespace mozilla { /* * RangedPtr is a smart pointer restricted to an address range specified at * creation. The pointer (and any smart pointers derived from it) must remain * within the range [start, end] (inclusive of end to facilitate use as * sentinels). Dereferencing or indexing into the pointer (or pointers derived * from it) must remain within the range [start, end). All the standard pointer * operators are defined on it; in debug builds these operations assert that the * range specified at construction is respected. * * In theory passing a smart pointer instance as an argument can be slightly * slower than passing a T* (due to ABI requirements for passing structs versus * passing pointers), if the method being called isn't inlined. If you are in * extremely performance-critical code, you may want to be careful using this * smart pointer as an argument type. * * RangedPtr intentionally does not implicitly convert to T*. Use get() to * explicitly convert to T*. Keep in mind that the raw pointer of course won't * implement bounds checking in debug builds. */ template class RangedPtr { T* ptr; #ifdef DEBUG T* const rangeStart; T* const rangeEnd; #endif void checkSanity() { MOZ_ASSERT(rangeStart <= ptr); MOZ_ASSERT(ptr <= rangeEnd); } /* Creates a new pointer for |ptr|, restricted to this pointer's range. */ RangedPtr create(T *ptr) const { #ifdef DEBUG return RangedPtr(ptr, rangeStart, rangeEnd); #else return RangedPtr(ptr, NULL, size_t(0)); #endif } public: RangedPtr(T* p, T* start, T* end) : ptr(p) #ifdef DEBUG , rangeStart(start), rangeEnd(end) #endif { MOZ_ASSERT(rangeStart <= rangeEnd); checkSanity(); } RangedPtr(T* p, T* start, size_t length) : ptr(p) #ifdef DEBUG , rangeStart(start), rangeEnd(start + length) #endif { MOZ_ASSERT(length <= size_t(-1) / sizeof(T)); MOZ_ASSERT(uintptr_t(rangeStart) + length * sizeof(T) >= uintptr_t(rangeStart)); checkSanity(); } /* Equivalent to RangedPtr(p, p, length). */ RangedPtr(T* p, size_t length) : ptr(p) #ifdef DEBUG , rangeStart(p), rangeEnd(p + length) #endif { MOZ_ASSERT(length <= size_t(-1) / sizeof(T)); MOZ_ASSERT(uintptr_t(rangeStart) + length * sizeof(T) >= uintptr_t(rangeStart)); checkSanity(); } /* Equivalent to RangedPtr(arr, arr, N). */ template RangedPtr(T arr[N]) : ptr(arr) #ifdef DEBUG , rangeStart(arr), rangeEnd(arr + N) #endif { checkSanity(); } T* get() const { return ptr; } /* * You can only assign one RangedPtr into another if the two pointers have * the same valid range: * * char arr1[] = "hi"; * char arr2[] = "bye"; * RangedPtr p1(arr1, 2); * p1 = RangedPtr(arr1 + 1, arr1, arr1 + 2); // works * p1 = RangedPtr(arr2, 3); // asserts */ RangedPtr& operator=(const RangedPtr& other) { MOZ_ASSERT(rangeStart == other.rangeStart); MOZ_ASSERT(rangeEnd == other.rangeEnd); ptr = other.ptr; checkSanity(); return *this; } RangedPtr operator+(size_t inc) { MOZ_ASSERT(inc <= size_t(-1) / sizeof(T)); MOZ_ASSERT(ptr + inc > ptr); return create(ptr + inc); } RangedPtr operator-(size_t dec) { MOZ_ASSERT(dec <= size_t(-1) / sizeof(T)); MOZ_ASSERT(ptr - dec < ptr); return create(ptr - dec); } /* * You can assign a raw pointer into a RangedPtr if the raw pointer is * within the range specified at creation. */ template RangedPtr& operator=(U* p) { *this = create(p); return *this; } template RangedPtr& operator=(const RangedPtr& p) { MOZ_ASSERT(rangeStart <= p.ptr); MOZ_ASSERT(p.ptr <= rangeEnd); ptr = p.ptr; checkSanity(); return *this; } RangedPtr& operator++() { return (*this += 1); } RangedPtr operator++(int) { RangedPtr rcp = *this; ++*this; return rcp; } RangedPtr& operator--() { return (*this -= 1); } RangedPtr operator--(int) { RangedPtr rcp = *this; --*this; return rcp; } RangedPtr& operator+=(size_t inc) { this->operator=(*this + inc); return *this; } RangedPtr& operator-=(size_t dec) { this->operator=(*this - dec); return *this; } T& operator[](int index) const { MOZ_ASSERT(size_t(index > 0 ? index : -index) <= size_t(-1) / sizeof(T)); return *create(ptr + index); } T& operator*() const { return *ptr; } template bool operator==(const RangedPtr& other) const { return ptr == other.ptr; } template bool operator!=(const RangedPtr& other) const { return !(*this == other); } template bool operator==(const U* u) const { return ptr == u; } template bool operator!=(const U* u) const { return !(*this == u); } template bool operator<(const RangedPtr& other) const { return ptr < other.ptr; } template bool operator<=(const RangedPtr& other) const { return ptr <= other.ptr; } template bool operator>(const RangedPtr& other) const { return ptr > other.ptr; } template bool operator>=(const RangedPtr& other) const { return ptr >= other.ptr; } size_t operator-(const RangedPtr& other) const { MOZ_ASSERT(ptr >= other.ptr); return PointerRangeSize(other.ptr, ptr); } private: RangedPtr() MOZ_DELETE; T* operator&() MOZ_DELETE; operator T*() const MOZ_DELETE; }; } /* namespace mozilla */ #endif /* mozilla_RangedPtr_h_ */