// Copyright 2016 The Chromium Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. #ifndef THIRD_PARTY_BASE_PTR_UTIL_H_ #define THIRD_PARTY_BASE_PTR_UTIL_H_ #include #include namespace pdfium { // Helper to transfer ownership of a raw pointer to a std::unique_ptr. // Note that std::unique_ptr has very different semantics from // std::unique_ptr: do not use this helper for array allocations. template std::unique_ptr WrapUnique(T* ptr) { return std::unique_ptr(ptr); } namespace internal { template struct MakeUniqueResult { using Scalar = std::unique_ptr; }; template struct MakeUniqueResult { using Array = std::unique_ptr; }; template struct MakeUniqueResult { using Invalid = void; }; } // namespace internal // Helper to construct an object wrapped in a std::unique_ptr. This is an // implementation of C++14's std::MakeUnique that can be used in Chrome. // // MakeUnique(args) should be preferred over WrapUnique(new T(args)): bare // calls to `new` should be treated with scrutiny. // // Usage: // // ptr is a std::unique_ptr // auto ptr = MakeUnique("hello world!"); // // // arr is a std::unique_ptr // auto arr = MakeUnique(5); // Overload for non-array types. Arguments are forwarded to T's constructor. template typename internal::MakeUniqueResult::Scalar MakeUnique(Args&&... args) { return std::unique_ptr(new T(std::forward(args)...)); } // Overload for array types of unknown bound, e.g. T[]. The array is allocated // with `new T[n]()` and value-initialized: note that this is distinct from // `new T[n]`, which default-initializes. template typename internal::MakeUniqueResult::Array MakeUnique(size_t size) { return std::unique_ptr(new typename std::remove_extent::type[size]()); } // Overload to reject array types of known bound, e.g. T[n]. template typename internal::MakeUniqueResult::Invalid MakeUnique(Args&&... args) = delete; } // namespace pdfium #endif // THIRD_PARTY_BASE_PTR_UTIL_H_