boost/thread/win32/thread_heap_alloc.hpp
// Distributed under the Boost Software License, Version 1.0. (See // accompanying file LICENSE_1_0.txt or copy at // http://www.boost.org/LICENSE_1_0.txt) // (C) Copyright 2007 Anthony Williams #ifndef THREAD_HEAP_ALLOC_HPP #define THREAD_HEAP_ALLOC_HPP #include <new> #include "thread_primitives.hpp" #include <stdexcept> #include <boost/assert.hpp> #if defined( BOOST_USE_WINDOWS_H ) # include <windows.h> namespace boost { namespace detail { namespace win32 { using ::GetProcessHeap; using ::HeapAlloc; using ::HeapFree; } } } #else # ifdef HeapAlloc # undef HeapAlloc # endif namespace boost { namespace detail { namespace win32 { extern "C" { __declspec(dllimport) handle __stdcall GetProcessHeap(); __declspec(dllimport) void* __stdcall HeapAlloc(handle,unsigned long,ulong_ptr); __declspec(dllimport) int __stdcall HeapFree(handle,unsigned long,void*); } } } } #endif #include <boost/config/abi_prefix.hpp> namespace boost { namespace detail { inline BOOST_THREAD_DECL void* allocate_raw_heap_memory(unsigned size) { void* const heap_memory=detail::win32::HeapAlloc(detail::win32::GetProcessHeap(),0,size); if(!heap_memory) { throw std::bad_alloc(); } return heap_memory; } inline BOOST_THREAD_DECL void free_raw_heap_memory(void* heap_memory) { BOOST_VERIFY(detail::win32::HeapFree(detail::win32::GetProcessHeap(),0,heap_memory)!=0); } template<typename T> inline T* heap_new() { void* const heap_memory=allocate_raw_heap_memory(sizeof(T)); try { T* const data=new (heap_memory) T(); return data; } catch(...) { free_raw_heap_memory(heap_memory); throw; } } #ifdef BOOST_HAS_RVALUE_REFS template<typename T,typename A1> inline T* heap_new(A1&& a1) { void* const heap_memory=allocate_raw_heap_memory(sizeof(T)); try { T* const data=new (heap_memory) T(static_cast<A1&&>(a1)); return data; } catch(...) { free_raw_heap_memory(heap_memory); throw; } } template<typename T,typename A1,typename A2> inline T* heap_new(A1&& a1,A2&& a2) { void* const heap_memory=allocate_raw_heap_memory(sizeof(T)); try { T* const data=new (heap_memory) T(static_cast<A1&&>(a1),static_cast<A2&&>(a2)); return data; } catch(...) { free_raw_heap_memory(heap_memory); throw; } } template<typename T,typename A1,typename A2,typename A3> inline T* heap_new(A1&& a1,A2&& a2,A3&& a3) { void* const heap_memory=allocate_raw_heap_memory(sizeof(T)); try { T* const data=new (heap_memory) T(static_cast<A1&&>(a1),static_cast<A2&&>(a2), static_cast<A3&&>(a3)); return data; } catch(...) { free_raw_heap_memory(heap_memory); throw; } } template<typename T,typename A1,typename A2,typename A3,typename A4> inline T* heap_new(A1&& a1,A2&& a2,A3&& a3,A4&& a4) { void* const heap_memory=allocate_raw_heap_memory(sizeof(T)); try { T* const data=new (heap_memory) T(static_cast<A1&&>(a1),static_cast<A2&&>(a2), static_cast<A3&&>(a3),static_cast<A4&&>(a4)); return data; } catch(...) { free_raw_heap_memory(heap_memory); throw; } } #else template<typename T,typename A1> inline T* heap_new_impl(A1 a1) { void* const heap_memory=allocate_raw_heap_memory(sizeof(T)); try { T* const data=new (heap_memory) T(a1); return data; } catch(...) { free_raw_heap_memory(heap_memory); throw; } } template<typename T,typename A1,typename A2> inline T* heap_new_impl(A1 a1,A2 a2) { void* const heap_memory=allocate_raw_heap_memory(sizeof(T)); try { T* const data=new (heap_memory) T(a1,a2); return data; } catch(...) { free_raw_heap_memory(heap_memory); throw; } } template<typename T,typename A1,typename A2,typename A3> inline T* heap_new_impl(A1 a1,A2 a2,A3 a3) { void* const heap_memory=allocate_raw_heap_memory(sizeof(T)); try { T* const data=new (heap_memory) T(a1,a2,a3); return data; } catch(...) { free_raw_heap_memory(heap_memory); throw; } } template<typename T,typename A1,typename A2,typename A3,typename A4> inline T* heap_new_impl(A1 a1,A2 a2,A3 a3,A4 a4) { void* const heap_memory=allocate_raw_heap_memory(sizeof(T)); try { T* const data=new (heap_memory) T(a1,a2,a3,a4); return data; } catch(...) { free_raw_heap_memory(heap_memory); throw; } } template<typename T,typename A1> inline T* heap_new(A1 const& a1) { return heap_new_impl<T,A1 const&>(a1); } template<typename T,typename A1> inline T* heap_new(A1& a1) { return heap_new_impl<T,A1&>(a1); } template<typename T,typename A1,typename A2> inline T* heap_new(A1 const& a1,A2 const& a2) { return heap_new_impl<T,A1 const&,A2 const&>(a1,a2); } template<typename T,typename A1,typename A2> inline T* heap_new(A1& a1,A2 const& a2) { return heap_new_impl<T,A1&,A2 const&>(a1,a2); } template<typename T,typename A1,typename A2> inline T* heap_new(A1 const& a1,A2& a2) { return heap_new_impl<T,A1 const&,A2&>(a1,a2); } template<typename T,typename A1,typename A2> inline T* heap_new(A1& a1,A2& a2) { return heap_new_impl<T,A1&,A2&>(a1,a2); } template<typename T,typename A1,typename A2,typename A3> inline T* heap_new(A1 const& a1,A2 const& a2,A3 const& a3) { return heap_new_impl<T,A1 const&,A2 const&,A3 const&>(a1,a2,a3); } template<typename T,typename A1,typename A2,typename A3> inline T* heap_new(A1& a1,A2 const& a2,A3 const& a3) { return heap_new_impl<T,A1&,A2 const&,A3 const&>(a1,a2,a3); } template<typename T,typename A1,typename A2,typename A3> inline T* heap_new(A1 const& a1,A2& a2,A3 const& a3) { return heap_new_impl<T,A1 const&,A2&,A3 const&>(a1,a2,a3); } template<typename T,typename A1,typename A2,typename A3> inline T* heap_new(A1& a1,A2& a2,A3 const& a3) { return heap_new_impl<T,A1&,A2&,A3 const&>(a1,a2,a3); } template<typename T,typename A1,typename A2,typename A3> inline T* heap_new(A1 const& a1,A2 const& a2,A3& a3) { return heap_new_impl<T,A1 const&,A2 const&,A3&>(a1,a2,a3); } template<typename T,typename A1,typename A2,typename A3> inline T* heap_new(A1& a1,A2 const& a2,A3& a3) { return heap_new_impl<T,A1&,A2 const&,A3&>(a1,a2,a3); } template<typename T,typename A1,typename A2,typename A3> inline T* heap_new(A1 const& a1,A2& a2,A3& a3) { return heap_new_impl<T,A1 const&,A2&,A3&>(a1,a2,a3); } template<typename T,typename A1,typename A2,typename A3> inline T* heap_new(A1& a1,A2& a2,A3& a3) { return heap_new_impl<T,A1&,A2&,A3&>(a1,a2,a3); } template<typename T,typename A1,typename A2,typename A3,typename A4> inline T* heap_new(A1 const& a1,A2 const& a2,A3 const& a3,A4 const& a4) { return heap_new_impl<T,A1 const&,A2 const&,A3 const&,A4 const&>(a1,a2,a3,a4); } template<typename T,typename A1,typename A2,typename A3,typename A4> inline T* heap_new(A1& a1,A2 const& a2,A3 const& a3,A4 const& a4) { return heap_new_impl<T,A1&,A2 const&,A3 const&,A4 const&>(a1,a2,a3,a4); } template<typename T,typename A1,typename A2,typename A3,typename A4> inline T* heap_new(A1 const& a1,A2& a2,A3 const& a3,A4 const& a4) { return heap_new_impl<T,A1 const&,A2&,A3 const&,A4 const&>(a1,a2,a3,a4); } template<typename T,typename A1,typename A2,typename A3,typename A4> inline T* heap_new(A1& a1,A2& a2,A3 const& a3,A4 const& a4) { return heap_new_impl<T,A1&,A2&,A3 const&,A4 const&>(a1,a2,a3,a4); } template<typename T,typename A1,typename A2,typename A3,typename A4> inline T* heap_new(A1 const& a1,A2 const& a2,A3& a3,A4 const& a4) { return heap_new_impl<T,A1 const&,A2 const&,A3&,A4 const&>(a1,a2,a3,a4); } template<typename T,typename A1,typename A2,typename A3,typename A4> inline T* heap_new(A1& a1,A2 const& a2,A3& a3,A4 const& a4) { return heap_new_impl<T,A1&,A2 const&,A3&,A4 const&>(a1,a2,a3,a4); } template<typename T,typename A1,typename A2,typename A3,typename A4> inline T* heap_new(A1 const& a1,A2& a2,A3& a3,A4 const& a4) { return heap_new_impl<T,A1 const&,A2&,A3&,A4 const&>(a1,a2,a3,a4); } template<typename T,typename A1,typename A2,typename A3,typename A4> inline T* heap_new(A1& a1,A2& a2,A3& a3,A4 const& a4) { return heap_new_impl<T,A1&,A2&,A3&,A4 const&>(a1,a2,a3,a4); } template<typename T,typename A1,typename A2,typename A3,typename A4> inline T* heap_new(A1 const& a1,A2 const& a2,A3 const& a3,A4& a4) { return heap_new_impl<T,A1 const&,A2 const&,A3 const&,A4&>(a1,a2,a3,a4); } template<typename T,typename A1,typename A2,typename A3,typename A4> inline T* heap_new(A1& a1,A2 const& a2,A3 const& a3,A4& a4) { return heap_new_impl<T,A1&,A2 const&,A3 const&,A4&>(a1,a2,a3,a4); } template<typename T,typename A1,typename A2,typename A3,typename A4> inline T* heap_new(A1 const& a1,A2& a2,A3 const& a3,A4& a4) { return heap_new_impl<T,A1 const&,A2&,A3 const&,A4&>(a1,a2,a3,a4); } template<typename T,typename A1,typename A2,typename A3,typename A4> inline T* heap_new(A1& a1,A2& a2,A3 const& a3,A4& a4) { return heap_new_impl<T,A1&,A2&,A3 const&,A4&>(a1,a2,a3,a4); } template<typename T,typename A1,typename A2,typename A3,typename A4> inline T* heap_new(A1 const& a1,A2 const& a2,A3& a3,A4& a4) { return heap_new_impl<T,A1 const&,A2 const&,A3&,A4&>(a1,a2,a3,a4); } template<typename T,typename A1,typename A2,typename A3,typename A4> inline T* heap_new(A1& a1,A2 const& a2,A3& a3,A4& a4) { return heap_new_impl<T,A1&,A2 const&,A3&,A4&>(a1,a2,a3,a4); } template<typename T,typename A1,typename A2,typename A3,typename A4> inline T* heap_new(A1 const& a1,A2& a2,A3& a3,A4& a4) { return heap_new_impl<T,A1 const&,A2&,A3&,A4&>(a1,a2,a3,a4); } template<typename T,typename A1,typename A2,typename A3,typename A4> inline T* heap_new(A1& a1,A2& a2,A3& a3,A4& a4) { return heap_new_impl<T,A1&,A2&,A3&,A4&>(a1,a2,a3,a4); } #endif template<typename T> inline void heap_delete(T* data) { data->~T(); free_raw_heap_memory(data); } template<typename T> struct do_heap_delete { void operator()(T* data) const { detail::heap_delete(data); } }; } } #include <boost/config/abi_suffix.hpp> #endif