// // A vector class without default-initialization, for "plain old data" // // Copyright (C) 2016-2019 Andreas Gustafsson. This file is part of // the Gaborator library source distribution. See the file LICENSE at // the top level of the distribution for license information. // #ifndef _GABORATOR_POD_VECTOR_H #define _GABORATOR_POD_VECTOR_H #include // size_t #include // std::swap namespace gaborator { // A vector for storing Plain Old Data. This is similar to a // std::vector, except that it does not zero-initialize elements, // and that it guarantees that data() returns a non-NULL pointer // even when the vector contains zero elements. template struct pod_vector { typedef T value_type; typedef T *iterator; pod_vector() { b = e = 0; } explicit pod_vector(size_t size_) { // Allocate raw uninitialized memory b = static_cast(::operator new(size_ * sizeof(T))); e = b + size_; } ~pod_vector() #if __cplusplus >= 201103L noexcept #endif { _free(); } void swap(pod_vector &x) { std::swap(b, x.b); std::swap(e, x.e); } iterator begin() const { return b; } iterator end() const { return e; } T *data() { return b; } const T *data() const { return b; } T &operator[](size_t i) { return b[i]; } const T &operator[](size_t i) const { return b[i]; } size_t size() const { return e - b; } void resize(size_t new_size) { if (new_size == size()) return; T *n = static_cast(::operator new(new_size * sizeof(T))); size_t ncopy = std::min(size(), new_size); std::copy(b, b + ncopy, n); _free(); b = n; e = n + new_size; } pod_vector(const pod_vector &a) { b = new T[a.size()]; e = b + a.size(); std::copy(a.b, a.e, b); //if (size()) fprintf(stderr, "pod_vector cc %d\n", (int)size()); } void clear() { _free(); b = e = 0; } #if __cplusplus >= 201103L pod_vector(pod_vector&& x) noexcept: b(x.b), e(x.e) { x.b = x.e = 0; //if (size()) fprintf(stderr, "pod_vector mv %d\n", (int)size()); } #endif pod_vector &operator=(const pod_vector &a) { if (&a == this) return *this; _free(); b = new T[a.size()]; e = b + a.size(); std::copy(a.b, a.e, b); //if (size()) fprintf(stderr, "pod_vector = %d\n", (int)size()); return *this; } #if __cplusplus >= 201103L pod_vector &operator=(pod_vector &&x) noexcept { if (&x == this) return *this; b = x.b; e = x.e; x.b = x.e = 0; return *this; } #endif private: void _free() { // Free as raw uninitialized memory ::operator delete(b); } private: T *b; T *e; }; } // namespace #endif