Нашел в спецификации C# интересный материал A.8 Dynamic memory allocation.
Немного переделал его для работы с x64:
internal unsafe class Memory
{
// Heap API flags
private const uint HEAP_ZERO_MEMORY = 0x00000008;
// Heap API functions
[DllImport("Kernel32")]
private static extern IntPtr GetProcessHeap();
[DllImport("Kernel32")]
private static extern int HeapSize(IntPtr hHeap, uint dwFlags, IntPtr lpMem);
[DllImport("Kernel32")]
private static extern IntPtr HeapAlloc(IntPtr hHeap, uint dwFlags, UIntPtr dwBytes);
[DllImport("Kernel32")]
private static extern IntPtr HeapReAlloc(IntPtr hHeap, uint dwFlags, IntPtr lpMem, UIntPtr dwBytes);
[DllImport("Kernel32")]
private static extern bool HeapFree(IntPtr hHeap, uint flags, IntPtr lpMem);
// Handle for the process heap. This handle is used in all calls to the
// HeapXXX APIs in the methods below.
private static IntPtr ph = GetProcessHeap();
// Private instance constructor to prevent instantiation.
private Memory()
{
}
// Allocates a memory block of the given size. The allocated memory is
// automatically initialized to zero.
public static void* Alloc(uint size)
{
void* result = HeapAlloc(ph, HEAP_ZERO_MEMORY, new UIntPtr(size)).ToPointer();
if (result == null) throw new OutOfMemoryException();
return result;
}
// Copies count bytes from src to dst. The source and destination
// blocks are permitted to overlap.
public static void Copy(void* src, void* dst, int count)
{
byte* ps = (byte*)src;
byte* pd = (byte*)dst;
if (ps > pd)
{
for (; count != 0; count--) *pd++ = *ps++;
}
else if (ps < pd)
{
for (ps += count, pd += count; count != 0; count--) *--pd = *--ps;
}
}
// Frees a memory block.
public static void Free(void* block)
{
if (!HeapFree(ph, 0, new IntPtr(block))) throw new InvalidOperationException();
}
// Re-allocates a memory block. If the reallocation request is for a
// larger size, the additional region of memory is automatically
// initialized to zero.
public static void* ReAlloc(void* block, uint size)
{
void* result = HeapReAlloc(ph, HEAP_ZERO_MEMORY, new IntPtr(block), new UIntPtr(size)).ToPointer();
if (result == null) throw new OutOfMemoryException();
return result;
}
// Returns the size of a memory block.
public static int SizeOf(void* block)
{
int result = HeapSize(ph, 0, new IntPtr(block));
if (result == -1) throw new InvalidOperationException();
return result;
}
}
Я тот еще нативщик, поэтому прошу опытных людей провести испекцию кода, который преимущественно будет являться заменой стандартного байтового массива (byte[]) в многопоточном приложении.
p.s. по предварительным данным HeapAlloc работает быстрее стандартной stackalloc. Правда профессиональные бенчмарки не проводил, использовал stopwatch.