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在这我将为大家展示和介绍怎么样在C#和.NET下使用汇编秒速拷贝数据,在我是实例里面我用了一运用程序创建了一段视频,里面包含图片,视频和声音。
当然如果你也需要在C#使用汇编的情况,这方法给你提供一个快速简单的解决途径。
理解本文的内容, ***具备以下知识: 汇编语言, 内存对齐, c#, windows 和 .net 高级技巧(advanced techniques).
要提高数据复制(copy-past )的速度, 我们需要将内存地址按 16 个字节对齐. 否则, 速度不会有明显的改变. (我的例子大概快 1.02 倍 )
Pentium III+ (KNI/MMX2) 和 AMD Athlon (AMD EMMX) 这两种处理器都支持本文代码用到 SSE 指令集.
我用配置为: Pentium Dual-Core E5800 3.2GHz, 4GB 双通道内存的计算机做测试, 16 个字节内存对齐的速度要比标准方式快 1.5 倍, 而非内存对齐方式的速度几乎没有变化(1.02倍).
这是一个完整的演示测试,向你展示了性能测试以及如何使用。
FastMemCopy 类包含了用于快速内存拷贝逻辑的所有内容。
首先你需要创建一个默认的Windows Forms应用程序工程,在窗体上放两个按钮,一个PictureBox 控件,因为我们将用图片来测试。
声明几个字段先:
- string bitmapPath;
- Bitmap bmp, bmp2;
- BitmapData bmpd, bmpd2;
- byte[] buffer = null;
现在创建两个方法用来处理按钮的点击事件。
标准方法如下:
- private void btnStandard_Click(object sender, EventArgs e)
- {
- using (OpenFileDialog ofd = new OpenFileDialog())
- {
- if (ofd.ShowDialog() != System.Windows.Forms.DialogResult.OK)
- return;
- bitmapPath = ofd.FileName;
- }
- //open a selected image and create an empty image with the same size
- OpenImage();
- //unlock for read and write images
- UnlockBitmap();
- //copy data from one image to another by standard method
- CopyImage();
- //lock images to be able to see them
- LockBitmap();
- //lets see what we have
- pictureBox1.Image = bmp2;
- }
快速方法如下:
- private void btnFast_Click(object sender, EventArgs e)
- {
- using (OpenFileDialog ofd = new OpenFileDialog())
- {
- if (ofd.ShowDialog() != System.Windows.Forms.DialogResult.OK)
- return;
- bitmapPath = ofd.FileName;
- }
- //open a selected image and create an empty image with the same size
- OpenImage();
- //unlock for read and write images
- UnlockBitmap();
- //copy data from one image to another with our fast method
- FastCopyImage();
- //lock images to be able to see them
- LockBitmap();
- //lets see what we have
- pictureBox1.Image = bmp2;
- }
好的,现在我们有按钮并且也有了事件处理,下面来实现打开图片、锁定、解锁它们的方法,以及标准拷贝方法:
打开一个图片:
- void OpenImage()
- {
- pictureBox1.Image = null;
- buffer = null;
- if (bmp != null)
- {
- bmp.Dispose();
- bmp = null;
- }
- if (bmp2 != null)
- {
- bmp2.Dispose();
- bmp2 = null;
- }
- GC.Collect(GC.MaxGeneration, GCCollectionMode.Forced);
- bmp = (Bitmap)Bitmap.FromFile(bitmapPath);
- buffer = new byte[bmp.Width * 4 * bmp.Height];
- bmp2 = new Bitmap(bmp.Width, bmp.Height, bmp.Width * 4, PixelFormat.Format32bppArgb,
- Marshal.UnsafeAddrOfPinnedArrayElement(buffer, 0));
- }
锁定和解锁位图:
- void UnlockBitmap()
- {
- bmpd = bmp.LockBits(new Rectangle(0, 0, bmp.Width, bmp.Height), ImageLockMode.ReadWrite,
- PixelFormat.Format32bppArgb);
- bmpd2 = bmp2.LockBits(new Rectangle(0, 0, bmp.Width, bmp.Height), ImageLockMode.ReadWrite,
- PixelFormat.Format32bppArgb);
- }
- void LockBitmap()
- {
- bmp.UnlockBits(bmpd);
- bmp2.UnlockBits(bmpd2);
- }
从一个图片拷贝数据到另一个图片,并且显示测得的时间:
- void CopyImage()
- {
- //start stopwatch
- Stopwatch sw = new Stopwatch();
- sw.Start();
- //copy-past data 10 times
- for (int i = 0; i < 10; i++)
- {
- System.Runtime.InteropServices.Marshal.Copy(bmpd.Scan0, buffer, 0, buffer.Length);
- }
- //stop stopwatch
- sw.Stop();
- //show measured time
- MessageBox.Show(sw.ElapsedTicks.ToString());
- }
这就是标准快速拷贝方法。其实一点也不复杂,我们使用了老牌的 System.Runtime.InteropServices.Marshal.Copy 方法。
以及又一个“中间方法(middle-method)”以用于快速拷贝逻辑:
- void FastCopyImage()
- {
- FastMemCopy.FastMemoryCopy(bmpd.Scan0, bmpd2.Scan0, buffer.Length);
- }
现在,来实现FastMemCopy类。下面是类的声明以及我们将会在类中使用到的一些类型:
- internal static class FastMemCopy
- {
- [Flags]
- private enum AllocationTypes : uint
- {
- Commit = 0x1000, Reserve = 0x2000,
- Reset = 0x80000, LargePages = 0x20000000,
- Physical = 0x400000, TopDown = 0x100000,
- WriteWatch = 0x200000
- }
- [Flags]
- private enum MemoryProtections : uint
- {
- Execute = 0x10, ExecuteRead = 0x20,
- ExecuteReadWrite = 0x40, ExecuteWriteCopy = 0x80,
- NoAccess = 0x01, ReadOnly = 0x02,
- ReadWrite = 0x04, WriteCopy = 0x08,
- GuartModifierflag = 0x100, NoCacheModifierflag = 0x200,
- WriteCombineModifierflag = 0x400
- }
- [Flags]
- private enum FreeTypes : uint
- {
- Decommit = 0x4000, Release = 0x8000
- }
- [UnmanagedFunctionPointerAttribute(CallingConvention.Cdecl)]
- private unsafe delegate void FastMemCopyDelegate();
- private static class NativeMethods
- {
- [DllImport("kernel32.dll", SetLastError = true)]
- internal static extern IntPtr VirtualAlloc(
- IntPtr lpAddress,
- UIntPtr dwSize,
- AllocationTypes flAllocationType,
- MemoryProtections flProtect);
- [DllImport("kernel32")]
- [return: MarshalAs(UnmanagedType.Bool)]
- internal static extern bool VirtualFree(
- IntPtr lpAddress,
- uint dwSize,
- FreeTypes flFreeType);
- }
现在声明方法本身:
- public static unsafe void FastMemoryCopy(IntPtr src, IntPtr dst, int nBytes)
- {
- if (IntPtr.Size == 4)
- {
- //we are in 32 bit mode
- //allocate memory for our asm method
- IntPtr p = NativeMethods.VirtualAlloc(
- IntPtr.Zero,
- new UIntPtr((uint)x86_FastMemCopy_New.Length),
- AllocationTypes.Commit | AllocationTypes.Reserve,
- MemoryProtections.ExecuteReadWrite);
- try
- {
- //copy our method bytes to allocated memory
- Marshal.Copy(x86_FastMemCopy_New, 0, p, x86_FastMemCopy_New.Length);
- //make a delegate to our method
- FastMemCopyDelegate _fastmemcopy =
- (FastMemCopyDelegate)Marshal.GetDelegateForFunctionPointer(p,
- typeof(FastMemCopyDelegate));
- //offset to the end of our method block
- p += x86_FastMemCopy_New.Length;
- //store length param
- p -= 8;
- Marshal.Copy(BitConverter.GetBytes((long)nBytes), 0, p, 4);
- //store destination address param
- p -= 8;
- Marshal.Copy(BitConverter.GetBytes((long)dst), 0, p, 4);
- //store source address param
- p -= 8;
- Marshal.Copy(BitConverter.GetBytes((long)src), 0, p, 4);
- //Start stopwatch
- Stopwatch sw = new Stopwatch();
- sw.Start();
- //copy-past all data 10 times
- for (int i = 0; i < 10; i++)
- _fastmemcopy();
- //stop stopwatch
- sw.Stop();
- //get message with measured time
- System.Windows.Forms.MessageBox.Show(sw.ElapsedTicks.ToString());
- }
- catch (Exception ex)
- {
- //if any exception
- System.Windows.Forms.MessageBox.Show(ex.Message);
- }
- finally
- {
- //free allocated memory
- NativeMethods.VirtualFree(p, (uint)(x86_FastMemCopy_New.Length),
- FreeTypes.Release);
- GC.Collect(GC.MaxGeneration, GCCollectionMode.Forced);
- }
- }
- else if (IntPtr.Size == 8)
- {
- throw new ApplicationException("x64 is not supported yet!");
- }
- }
汇编代码被表示成带注释的字节数组:
- private static byte[] x86_FastMemCopy_New = new byte[]
- {
- 0x90, //nop do nothing
- 0x60, //pushad store flag register on stack
- 0x95, //xchg ebp, eax eax contains memory address of our method
- 0x8B, 0xB5, 0x***, 0x01, 0x00, 0x00, //mov esi,[ebp][0000001***] get source buffer address
- 0x89, 0xF0, //mov eax,esi
- 0x83, 0xE0, 0x0F, //and eax,00F will check if it is 16 byte aligned
- 0x8B, 0xBD, 0x62, 0x01, 0x00, 0x00, //mov edi,[ebp][000000162] get destination address
- 0x89, 0xFB, //mov ebx,edi
- 0x83, 0xE3, 0x0F, //and ebx,00F will check if it is 16 byte aligned
- 0x8B, 0x8D, 0x6A, 0x01, 0x00, 0x00, //mov ecx,[ebp][00000016A] get number of bytes to copy
- 0xC1, 0xE9, 0x07, //shr ecx,7 divide length by 128
- 0x85, 0xC9, //test ecx,ecx check if zero
- 0x0F, 0x84, 0x1C, 0x01, 0x00, 0x00, //jz 000000146 ↓ copy the rest
- 0x0F, 0x18, 0x06, //prefetchnta [esi] pre-fetch non-temporal source data for reading
- 0x85, 0xC0, //test eax,eax check if source address is 16 byte aligned
- 0x0F, 0x84, 0x8B, 0x00, 0x00, 0x00, //jz 0000000C0 ↓ go to copy if aligned
- 0x0F, 0x18, 0x86, 0x80, 0x02, 0x00, 0x00, //prefetchnta [esi][000000280] pre-fetch more source data
- 0x0F, 0x10, 0x06, //movups xmm0,[esi] copy 16 bytes of source data
- 0x0F, 0x10, 0x4E, 0x10, //movups xmm1,[esi][010] copy more 16 bytes
- 0x0F, 0x10, 0x56, 0x20, //movups xmm2,[esi][020] copy more
- 0x0F, 0x18, 0x86, 0xC0, 0x02, 0x00, 0x00, //prefetchnta [esi][0000002C0] pre-fetch more
- 0x0F, 0x10, 0x5E, 0x30, //movups xmm3,[esi][030]
- 0x0F, 0x10, 0x66, 0x40, //movups xmm4,[esi][040]
- 0x0F, 0x10, 0x6E, 0x50, //movups xmm5,[esi][050]
- 0x0F, 0x10, 0x76, 0x60, //movups xmm6,[esi][060]
- 0x0F, 0x10, 0x7E, 0x70, //movups xmm7,[esi][070] we've copied 128 bytes of source data
- 0x85, 0xDB, //test ebx,ebx check if destination address is 16 byte aligned
- 0x74, 0x21, //jz 000000087 ↓ go to past if aligned
- 0x0F, 0x11, 0x07, //movups [edi],xmm0 past first 16 bytes to non-aligned destination address
- 0x0F, 0x11, 0x4F, 0x10, //movups [edi][010],xmm1 past more
- 0x0F, 0x11, 0x57, 0x20, //movups [edi][020],xmm2
- 0x0F, 0x11, 0x5F, 0x30, //movups [edi][030],xmm3
- 0x0F, 0x11, 0x67, 0x40, //movups [edi][040],xmm4
- 0x0F, 0x11, 0x6F, 0x50, //movups [edi][050],xmm5
- 0x0F, 0x11, 0x77, 0x60, //movups [edi][060],xmm6
- 0x0F, 0x11, 0x7F, 0x70, //movups [edi][070],xmm7 we've pasted 128 bytes of source data
- 0xEB, 0x1F, //jmps 0000000A6 ↓ continue
- 0x0F, 0x2B, 0x07, //movntps [edi],xmm0 past first 16 bytes to aligned destination address
- 0x0F, 0x2B, 0x4F, 0x10, //movntps [edi][010],xmm1 past more
- 0x0F, 0x2B, 0x57, 0x20, //movntps [edi][020],xmm2
- 0x0F, 0x2B, 0x5F, 0x30, //movntps [edi][030],xmm3
- 0x0F, 0x2B, 0x67, 0x40, //movntps [edi][040],xmm4
- 0x0F, 0x2B, 0x6F, 0x50, //movntps [edi][050],xmm5
- 0x0F, 0x2B, 0x77, 0x60, //movntps [edi][060],xmm6
- 0x0F, 0x2B, 0x7F, 0x70, //movntps [edi][070],xmm7 we've pasted 128 bytes of source data
- 0x81, 0xC6, 0x80, 0x00, 0x00, 0x00, //add esi,000000080 increment source address by 128
- 0x81, 0xC7, 0x80, 0x00, 0x00, 0x00, //add edi,000000080 increment destination address by 128
- 0x83, 0xE9, 0x01, //sub ecx,1 decrement counter
- 0x0F, 0x85, 0x7A, 0xFF, 0xFF, 0xFF, //jnz 000000035 ↑ continue if not zero
- 0xE9, 0x86, 0x00, 0x00, 0x00, //jmp 000000146 ↓ go to copy the rest of data
- 0x0F, 0x18, 0x86, 0x80, 0x02, 0x00, 0x00, //prefetchnta [esi][000000280] pre-fetch source data
- 0x0F, 0x28, 0x06, //movaps xmm0,[esi] copy 128 bytes from aligned source address
- 0x0F, 0x28, 0x4E, 0x10, //movaps xmm1,[esi][010] copy more
- 0x0F, 0x28, 0x56, 0x20, //movaps xmm2,[esi][020]
- 0x0F, 0x18, 0x86, 0xC0, 0x02, 0x00, 0x00, //prefetchnta [esi][0000002C0] pre-fetch more data
- 0x0F, 0x28, 0x5E, 0x30, //movaps xmm3,[esi][030]
- 0x0F, 0x28, 0x66, 0x40, //movaps xmm4,[esi][040]
- 0x0F, 0x28, 0x6E, 0x50, //movaps xmm5,[esi][050]
- 0x0F, 0x28, 0x76, 0x60, //movaps xmm6,[esi][060]
- 0x0F, 0x28, 0x7E, 0x70, //movaps xmm7,[esi][070] we've copied 128 bytes of source data
- 0x85, 0xDB, //test ebx,ebx check if destination address is 16 byte aligned
- 0x74, 0x21, //jz 000000112 ↓ go to past if aligned
- 0x0F, 0x11, 0x07, //movups [edi],xmm0 past 16 bytes to non-aligned destination address
- 0x0F, 0x11, 0x4F, 0x10, //movups [edi][010],xmm1 past more
- 0x0F, 0x11, 0x57, 0x20, //movups [edi][020],xmm2
- 0x0F, 0x11, 0x5F, 0x30, //movups [edi][030],xmm3
- 0x0F, 0x11, 0x67, 0x40, //movups [edi][040],xmm4
- 0x0F, 0x11, 0x6F, 0x50, //movups [edi][050],xmm5
- 0x0F, 0x11, 0x77, 0x60, //movups [edi][060],xmm6
- 0x0F, 0x11, 0x7F, 0x70, //movups [edi][070],xmm7 we've pasted 128 bytes of data
- 0xEB, 0x1F, //jmps 000000131 ↓ continue copy-past
- 0x0F, 0x2B, 0x07, //movntps [edi],xmm0 past 16 bytes to aligned destination address
- 0x0F, 0x2B, 0x4F, 0x10, //movntps [edi][010],xmm1 past more
- 0x0F, 0x2B, 0x57, 0x20, //movntps [edi][020],xmm2
- 0x0F, 0x2B, 0x5F, 0x30, //movntps [edi][030],xmm3
- 0x0F, 0x2B, 0x67, 0x40, //movntps [edi][040],xmm4
- 0x0F, 0x2B, 0x6F, 0x50, //movntps [edi][050],xmm5
- 0x0F, 0x2B, 0x77, 0x60, //movntps [edi][060],xmm6
- 0x0F, 0x2B, 0x7F, 0x70, //movntps [edi][070],xmm7 we've pasted 128 bytes of data
- 0x81, 0xC6, 0x80, 0x00, 0x00, 0x00, //add esi,000000080 increment source address by 128
- 0x81, 0xC7, 0x80, 0x00, 0x00, 0x00, //add edi,000000080 increment destination address by 128
- 0x83, 0xE9, 0x01, //sub ecx,1 decrement counter
- 0x0F, 0x85, 0x7A, 0xFF, 0xFF, 0xFF, //jnz 0000000C0 ↑ continue copy-past if non-zero
- 0x8B, 0x8D, 0x6A, 0x01, 0x00, 0x00, //mov ecx,[ebp][00000016A] get number of bytes to copy
- 0x83, 0xE1, 0x7F, //and ecx,07F get rest number of bytes
- 0x85, 0xC9, //test ecx,ecx check if there are bytes
- 0x74, 0x02, //jz 000000155 ↓ exit if there are no more bytes
- 0xF3, 0xA4, //rep movsb copy rest of bytes
- 0x0F, 0xAE, 0xF8, //sfence performs a serializing operation on all store-to-memory instructions
- 0x61, //popad restore flag register
- 0xC3, //retn return from our method to C#
- 0x00, 0x00, 0x00, 0x00, //source buffer address
- 0x00, 0x00, 0x00, 0x00,
- 0x00, 0x00, 0x00, 0x00, //destination buffer address
- 0x00, 0x00, 0x00, 0x00,
- 0x00, 0x00, 0x00, 0x00, //number of bytes to copy-past
- 0x00, 0x00, 0x00, 0x00
- };
我们将会通过前面创建的托管来调用汇编方法。
该方法目前工作在32位模式下,将来我会实现64位模式。
谁感兴趣的话可以添加到源代码中(文章中几乎包含了所有的代码)
在实现及测试该方法期间,我发现prefetchnta命令描述的不是很清楚,甚至是Intel的说明书也是一样。所以我尝试自己以及通过google来弄明白[[125062]]。注意movntps和movaps说明,它们只在16字节内存地址对齐时工作。
英文原文:C# - Fast memory copy method with x86 assembly usage
译文出自:http://www.oschina.net/translate/csharp-fast-memory-copy-method-with-x-assembly-usa
网站题目:使用x86汇编实现C#的快速内存拷贝
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