#ifndef AL_MALLOC_H #define AL_MALLOC_H #include #include #include #include #include #include #include #include #include "pragmadefs.h" [[gnu::alloc_align(1), gnu::alloc_size(2)]] void *al_malloc(size_t alignment, size_t size); [[gnu::alloc_align(1), gnu::alloc_size(2)]] void *al_calloc(size_t alignment, size_t size); void al_free(void *ptr) noexcept; #define DISABLE_ALLOC() \ void *operator new(size_t) = delete; \ void *operator new[](size_t) = delete; \ void operator delete(void*) noexcept = delete; \ void operator delete[](void*) noexcept = delete; #define DEF_NEWDEL(T) \ void *operator new(size_t size) \ { \ void *ret = al_malloc(alignof(T), size); \ if(!ret) throw std::bad_alloc(); \ return ret; \ } \ void *operator new[](size_t size) { return operator new(size); } \ void operator delete(void *block) noexcept { al_free(block); } \ void operator delete[](void *block) noexcept { operator delete(block); } #define DEF_PLACE_NEWDEL() \ void *operator new(size_t /*size*/, void *ptr) noexcept { return ptr; } \ void *operator new[](size_t /*size*/, void *ptr) noexcept { return ptr; } \ void operator delete(void *block, void*) noexcept { al_free(block); } \ void operator delete(void *block) noexcept { al_free(block); } \ void operator delete[](void *block, void*) noexcept { al_free(block); } \ void operator delete[](void *block) noexcept { al_free(block); } enum FamCount : size_t { }; #define DEF_FAM_NEWDEL(T, FamMem) \ static constexpr size_t Sizeof(size_t count) noexcept \ { return decltype(FamMem)::Sizeof(count, offsetof(T, FamMem)); } \ \ void *operator new(size_t /*size*/, FamCount count) \ { \ if(void *ret{al_malloc(alignof(T), T::Sizeof(count))}) \ return ret; \ throw std::bad_alloc(); \ } \ void *operator new[](size_t /*size*/) = delete; \ void operator delete(void *block, FamCount) { al_free(block); } \ void operator delete(void *block) noexcept { al_free(block); } \ void operator delete[](void* /*block*/) = delete; namespace al { #define REQUIRES(...) typename std::enable_if<(__VA_ARGS__),int>::type = 0 template struct allocator { using value_type = T; using reference = T&; using const_reference = const T&; using pointer = T*; using const_pointer = const T*; using size_type = std::size_t; using difference_type = std::ptrdiff_t; using is_always_equal = std::true_type; template struct rebind { using other = allocator; }; allocator() noexcept = default; template constexpr allocator(const allocator&) noexcept { } [[gnu::assume_aligned(alignment), gnu::alloc_size(2)]] T *allocate(std::size_t n) { if(n > std::numeric_limits::max()/sizeof(T)) throw std::bad_alloc(); if(auto p = static_cast(al_malloc(alignment, n*sizeof(T)))) return p; throw std::bad_alloc(); } void deallocate(T *p, std::size_t) noexcept { al_free(p); } }; template bool operator==(const allocator&, const allocator&) noexcept { return true; } template bool operator!=(const allocator&, const allocator&) noexcept { return false; } template [[gnu::assume_aligned(alignment)]] inline T* assume_aligned(T *ptr) noexcept { return ptr; } /* At least VS 2015 complains that 'ptr' is unused when the given type's * destructor is trivial (a no-op). So disable that warning for this call. */ DIAGNOSTIC_PUSH msc_pragma(warning(disable : 4100)) template inline void destroy_at(T *ptr) { ptr->~T(); } DIAGNOSTIC_POP template inline void destroy(T first, const T end) { while(first != end) { al::destroy_at(std::addressof(*first)); ++first; } } template::value)> inline T destroy_n(T first, N count) { if(count != 0) { do { al::destroy_at(std::addressof(*first)); ++first; } while(--count); } return first; } template::value)> inline T uninitialized_default_construct_n(T first, N count) { using ValueT = typename std::iterator_traits::value_type; T current{first}; if(count != 0) { try { do { ::new(static_cast(std::addressof(*current))) ValueT; ++current; } while(--count); } catch(...) { al::destroy(first, current); throw; } } return current; } /* A flexible array type. Used either standalone or at the end of a parent * struct, with placement new, to have a run-time-sized array that's embedded * with its size. */ template struct FlexArray { using element_type = T; using value_type = std::remove_cv_t; using index_type = size_t; using difference_type = ptrdiff_t; using pointer = T*; using const_pointer = const T*; using reference = T&; using const_reference = const T&; using iterator = pointer; using const_iterator = const_pointer; using reverse_iterator = std::reverse_iterator; using const_reverse_iterator = std::reverse_iterator; const index_type mSize; DIAGNOSTIC_PUSH std_pragma("GCC diagnostic ignored \"-Wpedantic\"") msc_pragma(warning(disable : 4200)) alignas(alignment) element_type mArray[0]; DIAGNOSTIC_POP static std::unique_ptr Create(index_type count) { void *ptr{al_calloc(alignof(FlexArray), Sizeof(count))}; return std::unique_ptr{new(ptr) FlexArray{count}}; } static constexpr index_type Sizeof(index_type count, index_type base=0u) noexcept { return base + std::max(offsetof(FlexArray, mArray) + sizeof(T)*count, sizeof(FlexArray)); } FlexArray(index_type size) : mSize{size} { al::uninitialized_default_construct_n(mArray, mSize); } ~FlexArray() { al::destroy_n(mArray, mSize); } FlexArray(const FlexArray&) = delete; FlexArray& operator=(const FlexArray&) = delete; index_type size() const noexcept { return mSize; } bool empty() const noexcept { return mSize == 0; } pointer data() noexcept { return mArray; } const_pointer data() const noexcept { return mArray; } reference operator[](index_type i) noexcept { return mArray[i]; } const_reference operator[](index_type i) const noexcept { return mArray[i]; } reference front() noexcept { return mArray[0]; } const_reference front() const noexcept { return mArray[0]; } reference back() noexcept { return mArray[mSize-1]; } const_reference back() const noexcept { return mArray[mSize-1]; } iterator begin() noexcept { return mArray; } const_iterator begin() const noexcept { return mArray; } const_iterator cbegin() const noexcept { return mArray; } iterator end() noexcept { return mArray + mSize; } const_iterator end() const noexcept { return mArray + mSize; } const_iterator cend() const noexcept { return mArray + mSize; } reverse_iterator rbegin() noexcept { return end(); } const_reverse_iterator rbegin() const noexcept { return end(); } const_reverse_iterator crbegin() const noexcept { return cend(); } reverse_iterator rend() noexcept { return begin(); } const_reverse_iterator rend() const noexcept { return begin(); } const_reverse_iterator crend() const noexcept { return cbegin(); } DEF_PLACE_NEWDEL() }; #undef REQUIRES } // namespace al #endif /* AL_MALLOC_H */