public virtual void Write(CommandQueue cq, long dstOffset, double[] srcData, int srcStartIndex, int count)
{
IntPtr p = cq.EnqueueMapBuffer(this, true, MapFlags.WRITE, dstOffset, (long)count * sizeof(double));
double* pBlock = (double*)p.ToPointer();
for (long i = 0; i < count; i++)
pBlock[i] = srcData[i + srcStartIndex];
cq.EnqueueUnmapMemObject(this, p);
cq.Finish();
}
public virtual void MemSet(CommandQueue cq, byte value)
{
long offset = 0;
long count = MemSize.ToInt64();
IntPtr p = cq.EnqueueMapBuffer(this, true, MapFlags.WRITE, offset, count);
byte* pBlock = (byte*)p.ToPointer();
for (long i = 0; i < count; i++)
pBlock[i] = value;
cq.EnqueueUnmapMemObject(this, p);
cq.Finish();
}
public virtual void Read(CommandQueue cq, long srcOffset, double[] dstData, int dstStartIndex, int count)
{
IntPtr p = cq.EnqueueMapBuffer(this, true, MapFlags.READ, srcOffset, count * sizeof(double));
double* pBlock = (double*)p.ToPointer();
for (long i = 0; i < count; i++)
dstData[dstStartIndex+i] = pBlock[i];
cq.EnqueueUnmapMemObject(this, p);
cq.Finish();
}
/// <summary>
/// Test all versions of:
///
/// EnqueueMapBuffer
/// EnqueueMapImage
///
/// The test bounces an array from a managed byte buffer to a mapped buffer,
/// to an image. The image is then mapped and copied to a new managed buffer
/// where the result is compared to the original.
///
/// On error, the actual point of failure will have to be identified manually.
/// </summary>
/// <param name="c"></param>
/// <param name="cq"></param>
private void TestMapBuffer(Context c, CommandQueue cq)
{
if (!cq.Device.ImageSupport)
{
Output("Skipping EnqueueMapBuffer and EnqueueMapImage tests(not supported on this device)");
return;
}
Output("Testing MapBuffer");
OpenCLNet.Image img0 = null;
OpenCLNet.Mem mem0 = null;
int imgWidth = 1024;
int imgHeight = 1024;
int bufLen = imgWidth * 4 * imgHeight;
byte[] srcData = new byte[bufLen];
byte[] cmpData = new byte[bufLen];
Event event0;
Event event1;
for (int i = 0; i < srcData.Length; i++)
srcData[i] = (byte)(i);
Array.Clear(cmpData, 0, cmpData.Length);
try
{
img0 = c.CreateImage2D(MemFlags.READ_WRITE, ImageFormat.RGBA8U, imgWidth, imgHeight);
mem0 = c.CreateBuffer(MemFlags.READ_WRITE, bufLen, IntPtr.Zero);
Array.Clear(cmpData, 0, cmpData.Length);
fixed (byte* pSrc = srcData)
{
fixed (byte* pCmp = cmpData)
{
{
IntPtr[] origin = new IntPtr[3] { (IntPtr)0, (IntPtr)0, (IntPtr)0 };
IntPtr[] region = new IntPtr[3] { (IntPtr)imgWidth, (IntPtr)imgHeight, (IntPtr)1 };
IntPtr[] dstOrigin = new IntPtr[3] { (IntPtr)0, (IntPtr)0, (IntPtr)0 };
IntPtr[] dstRegion = new IntPtr[3] { (IntPtr)imgWidth, (IntPtr)imgHeight, (IntPtr)1 };
IntPtr mapPtr;
byte* pMapPtr;
IntPtr image_row_pitch;
IntPtr image_slice_pitch;
Array.Clear(cmpData, 0, cmpData.Length);
mapPtr = cq.EnqueueMapBuffer(mem0, true, MapFlags.WRITE, 0, bufLen);
pMapPtr = (byte*)mapPtr.ToPointer();
for (int i = 0; i < bufLen; i++)
pMapPtr[i] = srcData[i];
cq.EnqueueUnmapMemObject(mem0, mapPtr);
cq.EnqueueCopyBufferToImage(mem0, img0, (IntPtr)0, origin, region);
mapPtr = cq.EnqueueMapImage(img0, true, MapFlags.READ, origin, region, out image_row_pitch, out image_slice_pitch);
pMapPtr = (byte*)mapPtr.ToPointer();
for (int y = 0; y < imgHeight; y++)
{
byte* pSrcRowPtr = pMapPtr + y * (int)image_row_pitch;
byte* pDstRowPtr = pCmp + y*imgWidth*4;
for (int x = 0; x < imgWidth * 4; x++)
{
pDstRowPtr[x] = pSrcRowPtr[x];
}
}
cq.EnqueueUnmapMemObject(img0, mapPtr);
if (!CompareArray(cmpData, srcData))
Error("EnqueueEnqueueMapBuffer/EnqueueMapImage: (IntPtr version)Copy not identical to source when using no event args");
Array.Clear(cmpData, 0, cmpData.Length);
mapPtr = cq.EnqueueMapBuffer(mem0, true, MapFlags.WRITE, 0, bufLen);
pMapPtr = (byte*)mapPtr.ToPointer();
for (int i = 0; i < bufLen; i++)
pMapPtr[i] = srcData[i];
cq.EnqueueUnmapMemObject(mem0, mapPtr);
Event fdjk;
cq.EnqueueCopyBufferToImage(mem0, img0, (IntPtr)0, origin, region, 0, null, out fdjk);
cq.Finish();
mapPtr = cq.EnqueueMapImage(img0, false, MapFlags.READ, origin, region, out image_row_pitch, out image_slice_pitch, 0, null, out event0 );
cq.EnqueueWaitForEvent(event0);
cq.Finish();
pMapPtr = (byte*)mapPtr.ToPointer();
for (int y = 0; y < imgHeight; y++)
{
byte* pSrcRowPtr = pMapPtr + y * (int)image_row_pitch;
byte* pDstRowPtr = pCmp + y * imgWidth * 4;
for (int x = 0; x < imgWidth * 4; x++)
{
pDstRowPtr[x] = pSrcRowPtr[x];
}
}
cq.EnqueueUnmapMemObject(img0, mapPtr);
if (!CompareArray(cmpData, srcData))
Error("EnqueueEnqueueMapBuffer/EnqueueMapImage: (IntPtr version)Copy not identical to source when using event output and no wait list");
Event[] waitList = new Event[] { event0 };
Array.Clear(cmpData, 0, cmpData.Length);
mapPtr = cq.EnqueueMapBuffer(mem0, true, MapFlags.WRITE, 0, bufLen);
pMapPtr = (byte*)mapPtr.ToPointer();
for (int i = 0; i < bufLen; i++)
pMapPtr[i] = srcData[i];
cq.EnqueueUnmapMemObject(mem0, mapPtr);
cq.EnqueueCopyBufferToImage(mem0, img0, (IntPtr)0, origin, region);
mapPtr = cq.EnqueueMapImage(img0, false, MapFlags.READ, origin, region, out image_row_pitch, out image_slice_pitch, 1, waitList, out event1);
cq.EnqueueWaitForEvent(event1);
cq.Finish();
pMapPtr = (byte*)mapPtr.ToPointer();
for (int y = 0; y < imgHeight; y++)
{
byte* pSrcRowPtr = pMapPtr + y * (int)image_row_pitch;
byte* pDstRowPtr = pCmp + y * imgWidth * 4;
for (int x = 0; x < imgWidth * 4; x++)
{
pDstRowPtr[x] = pSrcRowPtr[x];
}
}
cq.EnqueueUnmapMemObject(img0, mapPtr);
if (!CompareArray(cmpData, srcData))
Error("EnqueueEnqueueMapBuffer/EnqueueMapImage: (IntPtr version)Copy not identical to source when using event output and no wait list");
event0.Dispose();
event1.Dispose();
}
{
int[] origin = new int[3] { (int)0, (int)0, (int)0 };
int[] region = new int[3] { (int)imgWidth, (int)imgHeight, (int)1 };
IntPtr mapPtr;
byte* pMapPtr;
int image_row_pitch;
int image_slice_pitch;
Array.Clear(cmpData, 0, cmpData.Length);
mapPtr = cq.EnqueueMapBuffer(mem0, true, MapFlags.WRITE, 0, bufLen);
pMapPtr = (byte*)mapPtr.ToPointer();
for (int i = 0; i < bufLen; i++)
pMapPtr[i] = srcData[i];
cq.EnqueueUnmapMemObject(mem0, mapPtr);
cq.EnqueueCopyBufferToImage(mem0, img0, 0, origin, region);
mapPtr = cq.EnqueueMapImage(img0, true, MapFlags.READ, origin, region, out image_row_pitch, out image_slice_pitch);
pMapPtr = (byte*)mapPtr.ToPointer();
for (int y = 0; y < imgHeight; y++)
{
byte* pSrcRowPtr = pMapPtr + y * (int)image_row_pitch;
byte* pDstRowPtr = pCmp + y*imgWidth*4;
for (int x = 0; x < imgWidth * 4; x++)
{
pDstRowPtr[x] = pSrcRowPtr[x];
}
}
cq.EnqueueUnmapMemObject(img0, mapPtr);
if (!CompareArray(cmpData, srcData))
Error("EnqueueEnqueueMapBuffer/EnqueueMapImage: (int version)Copy not identical to source when using no event args");
Array.Clear(cmpData, 0, cmpData.Length);
mapPtr = cq.EnqueueMapBuffer(mem0, true, MapFlags.WRITE, 0, bufLen);
pMapPtr = (byte*)mapPtr.ToPointer();
for (int i = 0; i < bufLen; i++)
pMapPtr[i] = srcData[i];
cq.EnqueueUnmapMemObject(mem0, mapPtr);
cq.EnqueueCopyBufferToImage(mem0, img0, 0, origin, region);
mapPtr = cq.EnqueueMapImage(img0, false, MapFlags.READ, origin, region, out image_row_pitch, out image_slice_pitch, 0, null, out event0 );
cq.EnqueueWaitForEvent(event0);
cq.Finish();
pMapPtr = (byte*)mapPtr.ToPointer();
for (int y = 0; y < imgHeight; y++)
{
byte* pSrcRowPtr = pMapPtr + y * (int)image_row_pitch;
byte* pDstRowPtr = pCmp + y * imgWidth * 4;
for (int x = 0; x < imgWidth * 4; x++)
{
pDstRowPtr[x] = pSrcRowPtr[x];
}
}
cq.EnqueueUnmapMemObject(img0, mapPtr);
if (!CompareArray(cmpData, srcData))
Error("EnqueueEnqueueMapBuffer/EnqueueMapImage: (int version)Copy not identical to source when using event output and no wait list");
Event[] waitList = new Event[] { event0 };
Array.Clear(cmpData, 0, cmpData.Length);
mapPtr = cq.EnqueueMapBuffer(mem0, true, MapFlags.WRITE, 0, bufLen);
pMapPtr = (byte*)mapPtr.ToPointer();
for (int i = 0; i < bufLen; i++)
pMapPtr[i] = srcData[i];
cq.EnqueueUnmapMemObject(mem0, mapPtr);
cq.EnqueueCopyBufferToImage(mem0, img0, 0, origin, region);
mapPtr = cq.EnqueueMapImage(img0, false, MapFlags.READ, origin, region, out image_row_pitch, out image_slice_pitch, 1, waitList, out event1);
cq.EnqueueWaitForEvent(event1);
cq.Finish();
pMapPtr = (byte*)mapPtr.ToPointer();
for (int y = 0; y < imgHeight; y++)
{
byte* pSrcRowPtr = pMapPtr + y * (int)image_row_pitch;
byte* pDstRowPtr = pCmp + y * imgWidth * 4;
for (int x = 0; x < imgWidth * 4; x++)
{
pDstRowPtr[x] = pSrcRowPtr[x];
}
}
cq.EnqueueUnmapMemObject(img0, mapPtr);
if (!CompareArray(cmpData, srcData))
Error("EnqueueEnqueueMapBuffer/EnqueueMapImage: (int version)Copy not identical to source when using event output and no wait list");
event0.Dispose();
event1.Dispose();
}
{
long[] origin = new long[3] { (long)0, (long)0, (long)0 };
long[] region = new long[3] { (long)imgWidth, (long)imgHeight, (long)1 };
IntPtr mapPtr;
byte* pMapPtr;
long image_row_pitch;
long image_slice_pitch;
Array.Clear(cmpData, 0, cmpData.Length);
mapPtr = cq.EnqueueMapBuffer(mem0, true, MapFlags.WRITE, 0, bufLen);
pMapPtr = (byte*)mapPtr.ToPointer();
for (int i = 0; i < bufLen; i++)
pMapPtr[i] = srcData[i];
cq.EnqueueUnmapMemObject(mem0, mapPtr);
cq.EnqueueCopyBufferToImage(mem0, img0, (long)0, origin, region);
mapPtr = cq.EnqueueMapImage(img0, true, MapFlags.READ, origin, region, out image_row_pitch, out image_slice_pitch);
pMapPtr = (byte*)mapPtr.ToPointer();
for (int y = 0; y < imgHeight; y++)
{
byte* pSrcRowPtr = pMapPtr + y * image_row_pitch;
byte* pDstRowPtr = pCmp + y * imgWidth * 4;
for (int x = 0; x < imgWidth * 4; x++)
{
pDstRowPtr[x] = pSrcRowPtr[x];
}
}
cq.EnqueueUnmapMemObject(img0, mapPtr);
if (!CompareArray(cmpData, srcData))
Error("EnqueueEnqueueMapBuffer/EnqueueMapImage: (long version)Copy not identical to source when using no event args");
Array.Clear(cmpData, 0, cmpData.Length);
mapPtr = cq.EnqueueMapBuffer(mem0, true, MapFlags.WRITE, 0, bufLen);
pMapPtr = (byte*)mapPtr.ToPointer();
for (int i = 0; i < bufLen; i++)
pMapPtr[i] = srcData[i];
cq.EnqueueUnmapMemObject(mem0, mapPtr);
cq.EnqueueCopyBufferToImage(mem0, img0, (long)0, origin, region);
mapPtr = cq.EnqueueMapImage(img0, false, MapFlags.READ, origin, region, out image_row_pitch, out image_slice_pitch, 0, null, out event0);
cq.EnqueueWaitForEvent(event0);
cq.Finish();
pMapPtr = (byte*)mapPtr.ToPointer();
for (int y = 0; y < imgHeight; y++)
{
byte* pSrcRowPtr = pMapPtr + y * image_row_pitch;
byte* pDstRowPtr = pCmp + y * imgWidth * 4;
for (int x = 0; x < imgWidth * 4; x++)
{
pDstRowPtr[x] = pSrcRowPtr[x];
}
}
cq.EnqueueUnmapMemObject(img0, mapPtr);
if (!CompareArray(cmpData, srcData))
Error("EnqueueEnqueueMapBuffer/EnqueueMapImage: (long version)Copy not identical to source when using event output and no wait list");
Event[] waitList = new Event[] { event0 };
Array.Clear(cmpData, 0, cmpData.Length);
mapPtr = cq.EnqueueMapBuffer(mem0, true, MapFlags.WRITE, 0, bufLen);
pMapPtr = (byte*)mapPtr.ToPointer();
for (int i = 0; i < bufLen; i++)
pMapPtr[i] = srcData[i];
cq.EnqueueUnmapMemObject(mem0, mapPtr);
cq.EnqueueCopyBufferToImage(mem0, img0, (long)0, origin, region);
mapPtr = cq.EnqueueMapImage(img0, false, MapFlags.READ, origin, region, out image_row_pitch, out image_slice_pitch, 1, waitList, out event1);
cq.EnqueueWaitForEvent(event1);
cq.Finish();
pMapPtr = (byte*)mapPtr.ToPointer();
for (int y = 0; y < imgHeight; y++)
{
byte* pSrcRowPtr = pMapPtr + y * image_row_pitch;
byte* pDstRowPtr = pCmp + y * imgWidth * 4;
for (int x = 0; x < imgWidth * 4; x++)
{
pDstRowPtr[x] = pSrcRowPtr[x];
}
}
cq.EnqueueUnmapMemObject(img0, mapPtr);
if (!CompareArray(cmpData, srcData))
Error("EnqueueEnqueueMapBuffer/EnqueueMapImage: (long version)Copy not identical to source when using event output and no wait list");
event0.Dispose();
event1.Dispose();
}
}
}
}
catch (Exception e)
{
Error("Exception during testing: " + e.ToString());
}
finally
{
if (img0 != null)
img0.Dispose();
if (mem0 != null)
mem0.Dispose();
}
}
public virtual void MemSet(CommandQueue cq, long dstByteOffset, double value, long count)
{
IntPtr p = cq.EnqueueMapBuffer(this, true, MapFlags.WRITE, dstByteOffset, count * sizeof(double));
double* pBlock = (double*)p.ToPointer();
for (long i = 0; i < count; i++)
pBlock[i] = value;
cq.EnqueueUnmapMemObject(this, p);
cq.Finish();
}
private unsafe void TestKernel(Context c, CommandQueue cq, Kernel argIOKernel)
{
Mem outArgBuffer = c.CreateBuffer((MemFlags)((ulong)MemFlags.ALLOC_HOST_PTR|(ulong)MemFlags.READ_WRITE), sizeof(IOKernelArgs), IntPtr.Zero);
byte[] data = new byte[sizeof(IOKernelArgs)];
Output("Testing kernel - Argument return");
argIOKernel.SetArg(0, 1);
argIOKernel.SetArg(1, 65L);
argIOKernel.SetArg(2, 38.4f);
argIOKernel.SetArg(3, outArgBuffer);
Event ev;
cq.EnqueueTask(argIOKernel,0,null,out ev);
cq.Finish();
if ((int)ev.ExecutionStatus < 0)
{
Error(cq.Device.Name + ": argIOKernel failed with error code " + (ErrorCode)ev.ExecutionStatus);
ev.Dispose();
}
else
{
outArgBuffer.Read(cq, 0L, data, 0, sizeof(IOKernelArgs));
IntPtr outArgPtr = cq.EnqueueMapBuffer(outArgBuffer, true, MapFlags.READ, IntPtr.Zero, (IntPtr)sizeof(IOKernelArgs));
IOKernelArgs args = (IOKernelArgs)Marshal.PtrToStructure(outArgPtr, typeof(IOKernelArgs));
cq.EnqueueUnmapMemObject(outArgBuffer, outArgPtr);
if (args.outInt != 1)
Error(cq.Device.Name + ": argIOKernel failed to return correct arguments");
if (args.outLong != 65)
Error(cq.Device.Name + ": argIOKernel failed to return correct arguments");
if (args.outSingle != 38.4f)
Error(cq.Device.Name + ": argIOKernel failed to return correct arguments");
}
}
/// <summary>
/// Test all versions of:
///
/// EnqueueNDRangeKernel
///
/// The tests just issue a dummy kernel a bunch of times with the various overloads
/// </summary>
/// <param name="c"></param>
/// <param name="cq"></param>
private void TestEnqueueNDRangeKernel(Context c, CommandQueue cq, Kernel k )
{
Output("Testing EnqueueNDRangeKernel");
Event event0 = null;
Event event1 = null;
try
{
{
IntPtr[] globalWorkSize = new IntPtr[] { (IntPtr)10 };
IntPtr[] localWorkSize = new IntPtr[] { (IntPtr)1 };
cq.EnqueueNDRangeKernel(k, (uint)1, null, globalWorkSize, localWorkSize);
cq.EnqueueNDRangeKernel(k, (uint)1, null, globalWorkSize, localWorkSize, 0, null, out event0);
Event[] waitList = new Event[] { event0 };
cq.EnqueueNDRangeKernel(k, (uint)1, null, globalWorkSize, localWorkSize, 1, waitList, out event1);
cq.Finish();
event0.Dispose();
event1.Dispose();
}
{
int[] globalWorkSize = new int[] { (int)10 };
int[] localWorkSize = new int[] { (int)1 };
cq.EnqueueNDRangeKernel(k, 1, null, globalWorkSize, localWorkSize);
cq.EnqueueNDRangeKernel(k, 1, null, globalWorkSize, localWorkSize, 0, null, out event0);
Event[] waitList = new Event[] { event0 };
cq.EnqueueNDRangeKernel(k, 1, null, globalWorkSize, localWorkSize, 1, waitList, out event1);
cq.Finish();
event0.Dispose();
event1.Dispose();
}
{
long[] globalWorkSize = new long[] { (long)10 };
long[] localWorkSize = new long[] { (long)1 };
cq.EnqueueNDRangeKernel(k, 1, null, globalWorkSize, localWorkSize);
cq.EnqueueNDRangeKernel(k, 1, null, globalWorkSize, localWorkSize, 0, null, out event0);
Event[] waitList = new Event[] { event0 };
cq.EnqueueNDRangeKernel(k, 1, null, globalWorkSize, localWorkSize, 1, waitList, out event1);
cq.Finish();
event0.Dispose();
event1.Dispose();
}
}
catch (Exception e)
{
Error("Exception during testing: " + e.ToString());
}
finally
{
if (event0 != null)
event0.Dispose();
if (event1 != null)
event1.Dispose();
}
}
private void TestCommandQueueMemCopy(Context c, CommandQueue cq)
{
Output("Testing synchronous host memory->memory copy");
AlignedArrayFloat aafSrc = new AlignedArrayFloat(1024 * 1024, 64);
AlignedArrayFloat aafDst = new AlignedArrayFloat(1024 * 1024, 64);
SetAAF(aafSrc, 0.0f);
SetAAF(aafDst, 1.0f);
/// Test HOST_PTR -> HOST_PTR copy
/// The call to EnqueueMapBuffer synchronizes caches before testing the result
using (Mem memSrc = c.CreateBuffer((MemFlags)((ulong)MemFlags.READ_WRITE+(ulong)MemFlags.USE_HOST_PTR), aafSrc.ByteLength, aafSrc))
{
using (Mem memDst = c.CreateBuffer((MemFlags)((ulong)MemFlags.READ_WRITE+(ulong)MemFlags.USE_HOST_PTR), aafDst.ByteLength, aafDst))
{
cq.EnqueueCopyBuffer(memSrc, memDst, IntPtr.Zero, IntPtr.Zero, (IntPtr)aafSrc.ByteLength);
cq.EnqueueBarrier();
IntPtr mappedPtr = cq.EnqueueMapBuffer(memDst, true, MapFlags.READ_WRITE, (IntPtr)0, (IntPtr)aafDst.ByteLength);
if (!TestAAF(aafDst, 0.0f))
Error("EnqueueCopyBuffer failed, destination is invalid");
cq.EnqueueUnmapMemObject(memDst, mappedPtr);
cq.EnqueueBarrier();
}
}
/// Test COPY_HOST_PTR -> COPY_HOST_PTR copy
/// Verify that original source buffers are intact and that the copy was successful
SetAAF(aafSrc, 0.0f);
SetAAF(aafDst, 1.0f);
using (Mem memSrc = c.CreateBuffer(MemFlags.COPY_HOST_PTR, aafSrc.ByteLength, aafSrc))
{
using (Mem memDst = c.CreateBuffer(MemFlags.COPY_HOST_PTR, aafSrc.ByteLength, aafDst))
{
SetAAF(aafSrc, 2.0f);
SetAAF(aafDst, 3.0f);
cq.EnqueueCopyBuffer(memSrc, memDst, IntPtr.Zero, IntPtr.Zero, (IntPtr)aafSrc.ByteLength);
cq.Finish();
if (!TestAAF(aafSrc, 2.0f))
Error("Memory copy destroyed src buffer");
if (!TestAAF(aafDst, 3.0f))
Error("Memory copy destroyed dst buffer");
Event ev;
cq.EnqueueReadBuffer(memDst, false, IntPtr.Zero, (IntPtr)aafDst.ByteLength, aafDst,0, null, out ev);
cq.EnqueueWaitForEvents(1, new Event[] { ev });
ev.Dispose();
cq.Finish();
if (!TestAAF(aafDst, 0.0f))
Error("Memory copy failed");
}
}
/// Test ALLOC_HOST_PTR -> ALLOC_HOST_PTR copy
SetAAF(aafSrc, 0.0f);
SetAAF(aafDst, 1.0f);
using (Mem memSrc = c.CreateBuffer((MemFlags)((ulong)MemFlags.ALLOC_HOST_PTR + (ulong)MemFlags.READ_WRITE), aafSrc.ByteLength, IntPtr.Zero))
{
using (Mem memDst = c.CreateBuffer((MemFlags)((ulong)MemFlags.ALLOC_HOST_PTR + (ulong)MemFlags.WRITE_ONLY), aafSrc.ByteLength, IntPtr.Zero))
{
cq.EnqueueWriteBuffer(memSrc, false, (IntPtr)0, (IntPtr)aafSrc.ByteLength, aafSrc);
cq.EnqueueWriteBuffer(memDst, false, (IntPtr)0, (IntPtr)aafSrc.ByteLength, aafSrc);
cq.EnqueueBarrier();
cq.EnqueueCopyBuffer(memSrc, memDst, IntPtr.Zero, IntPtr.Zero, (IntPtr)aafSrc.ByteLength);
cq.EnqueueBarrier();
cq.EnqueueReadBuffer(memDst, true, IntPtr.Zero, (IntPtr)aafDst.ByteLength, aafDst);
if (!TestAAF(aafDst, 0.0f))
Error("Memory copy failed");
}
}
/// Test DEFAULT -> DEFAULT copy
SetAAF(aafSrc, 0.0f);
SetAAF(aafDst, 1.0f);
using (Mem memSrc = c.CreateBuffer((MemFlags)((ulong)MemFlags.ALLOC_HOST_PTR + (ulong)MemFlags.READ_ONLY), aafSrc.ByteLength, IntPtr.Zero))
{
using (Mem memDst = c.CreateBuffer((MemFlags)((ulong)MemFlags.ALLOC_HOST_PTR + (ulong)MemFlags.WRITE_ONLY), aafSrc.ByteLength, IntPtr.Zero))
{
cq.EnqueueWriteBuffer(memSrc, false, (IntPtr)0, (IntPtr)aafSrc.ByteLength, aafSrc);
cq.EnqueueWriteBuffer(memDst, false, (IntPtr)0, (IntPtr)aafSrc.ByteLength, aafSrc);
cq.EnqueueBarrier();
cq.EnqueueCopyBuffer(memSrc, memDst, IntPtr.Zero, IntPtr.Zero, (IntPtr)aafSrc.ByteLength);
cq.EnqueueBarrier();
cq.EnqueueReadBuffer(memDst, true, IntPtr.Zero, (IntPtr)aafDst.ByteLength, aafDst);
if (!TestAAF(aafDst, 0.0f))
Error("Memory copy failed");
}
}
}
/// <summary>
/// Test all versions of:
///
/// EnqueueReadBufferRect
/// EnqueueWriteBufferRect
/// EnqueueCopyBufferRect
///
/// The test just copies the entirety of a buffer and checks if the result is equal to the original.
/// An error indicates that one of the above functions failed and further manual analysis is required
/// to pinpoint the error.
/// </summary>
/// <param name="c"></param>
/// <param name="cq"></param>
private void TestBufferRectFunctions(Context c, CommandQueue cq)
{
if (!(cq.Device.Platform.OpenCLMajorVersion >= 1 && cq.Device.Platform.OpenCLMinorVersion >= 1))
{
Output("Skipping EnqueueReadBufferRect, EnqueueWriteBufferRect and EnqueueCopyBufferRect tests(Requires OpenCL 1.1 or higher)");
return;
}
Output("Testing EnqueueReadBufferRect, EnqueueWriteBufferRect and EnqueueCopyBufferRect");
OpenCLNet.Mem mem0 = null;
OpenCLNet.Mem mem1 = null;
int bufWidth = 16;
int bufHeight = 16;
int bufLen = bufWidth * bufHeight;
byte[] srcData = new byte[bufLen];
byte[] cmpData = new byte[bufLen];
Event event0;
Event event1;
Event event2;
Event event3;
Event event4;
Event event5;
Array.Clear(srcData, 0, srcData.Length);
for (int i = 8; i < 12; i++)
for (int j = 8; j < 12; j++)
srcData[bufWidth * i + j] = (byte)1;
Array.Clear(cmpData, 0, cmpData.Length);
try
{
mem0 = c.CreateBuffer(MemFlags.READ_WRITE, bufLen, IntPtr.Zero);
mem1 = c.CreateBuffer(MemFlags.READ_WRITE, bufLen, IntPtr.Zero);
fixed (byte* pSrc = srcData)
{
fixed (byte* pCmp = cmpData)
{
{
IntPtr[] bufferOffset = new IntPtr[3] { (IntPtr)0, (IntPtr)0, (IntPtr)0 };
IntPtr[] hostOffset = new IntPtr[3] { (IntPtr)0, (IntPtr)0, (IntPtr)0 };
IntPtr[] region = new IntPtr[3] { (IntPtr)bufWidth, (IntPtr)bufHeight, (IntPtr)1 };
IntPtr bufferRowPitch = (IntPtr)bufWidth;
IntPtr bufferSlicePitch = (IntPtr)0;
IntPtr hostRowPitch = (IntPtr)bufWidth;
IntPtr hostSlicePitch = (IntPtr)0;
cq.EnqueueWriteBufferRect(mem0, true, bufferOffset, hostOffset, region, bufferRowPitch, bufferSlicePitch, hostRowPitch, hostSlicePitch, (IntPtr)pSrc);
cq.EnqueueCopyBufferRect(mem0, mem1, bufferOffset, hostOffset, region, bufferRowPitch, bufferSlicePitch, hostRowPitch, hostSlicePitch);
cq.Finish();
Array.Clear(cmpData, 0, cmpData.Length);
cq.EnqueueReadBufferRect(mem1, true, bufferOffset, hostOffset, region, bufferRowPitch, bufferSlicePitch, hostRowPitch, hostSlicePitch, (IntPtr)pCmp);
if (!CompareArray(cmpData, srcData))
Error("Read-/Write-/CopyRect: (IntPtr version)Copy not identical to source when using no event args");
cq.EnqueueWriteBufferRect(mem0, false, bufferOffset, hostOffset, region, bufferRowPitch, bufferSlicePitch, hostRowPitch, hostSlicePitch, (IntPtr)pSrc, 0, null, out event0);
cq.EnqueueWaitForEvent(event0);
cq.EnqueueCopyBufferRect(mem0, mem1, bufferOffset, hostOffset, region, bufferRowPitch, bufferSlicePitch, hostRowPitch, hostSlicePitch, 0, null, out event1);
cq.EnqueueWaitForEvent(event1);
Array.Clear(cmpData, 0, cmpData.Length);
cq.EnqueueReadBufferRect(mem1, false, bufferOffset, hostOffset, region, bufferRowPitch, bufferSlicePitch, hostRowPitch, hostSlicePitch, (IntPtr)pCmp, 0, null, out event2);
cq.Finish();
if (!CompareArray(cmpData, srcData))
Error("Read-/Write-/CopyRect: (IntPtr version)Copy not identical to source when using event output and no event args");
Event[] events = new Event[] { event0, event1, event2 };
cq.EnqueueWriteBufferRect(mem0, false, bufferOffset, hostOffset, region, bufferRowPitch, bufferSlicePitch, hostRowPitch, hostSlicePitch, (IntPtr)pSrc, 3, events, out event3);
cq.EnqueueWaitForEvent(event3);
cq.EnqueueCopyBufferRect(mem0, mem1, bufferOffset, hostOffset, region, bufferRowPitch, bufferSlicePitch, hostRowPitch, hostSlicePitch, 3, events, out event4);
cq.EnqueueWaitForEvent(event4);
Array.Clear(cmpData, 0, cmpData.Length);
cq.EnqueueReadBufferRect(mem1, false, bufferOffset, hostOffset, region, bufferRowPitch, bufferSlicePitch, hostRowPitch, hostSlicePitch, (IntPtr)pCmp, 3, events, out event5);
cq.Finish();
if (!CompareArray(cmpData, srcData))
Error("Read-/Write-/CopyRect: (IntPtr version)Copy not identical to source when using event output and event args");
event0.Dispose();
event1.Dispose();
event2.Dispose();
event3.Dispose();
event4.Dispose();
event5.Dispose();
}
{
int[] bufferOffset = new int[3] { 0, 0, 0 };
int[] hostOffset = new int[3] { 0, 0, 0 };
int[] region = new int[3] { bufWidth, bufHeight, 1 };
int bufferRowPitch = bufWidth;
int bufferSlicePitch = 0;
int hostRowPitch = bufWidth;
int hostSlicePitch = 0;
cq.EnqueueWriteBufferRect(mem0, true, bufferOffset, hostOffset, region, bufferRowPitch, bufferSlicePitch, hostRowPitch, hostSlicePitch, (IntPtr)pSrc);
cq.EnqueueCopyBufferRect(mem0, mem1, bufferOffset, hostOffset, region, bufferRowPitch, bufferSlicePitch, hostRowPitch, hostSlicePitch);
cq.Finish();
Array.Clear(cmpData, 0, cmpData.Length);
cq.EnqueueReadBufferRect(mem1, true, bufferOffset, hostOffset, region, bufferRowPitch, bufferSlicePitch, hostRowPitch, hostSlicePitch, (IntPtr)pCmp);
if (!CompareArray(cmpData, srcData))
Error("Read-/Write-/CopyRect: (int version)Copy not identical to source when using no event args");
cq.EnqueueWriteBufferRect(mem0, false, bufferOffset, hostOffset, region, bufferRowPitch, bufferSlicePitch, hostRowPitch, hostSlicePitch, (IntPtr)pSrc, 0, null, out event0);
cq.EnqueueWaitForEvent(event0);
cq.EnqueueCopyBufferRect(mem0, mem1, bufferOffset, hostOffset, region, bufferRowPitch, bufferSlicePitch, hostRowPitch, hostSlicePitch, 0, null, out event1);
cq.EnqueueWaitForEvent(event1);
Array.Clear(cmpData, 0, cmpData.Length);
cq.EnqueueReadBufferRect(mem1, false, bufferOffset, hostOffset, region, bufferRowPitch, bufferSlicePitch, hostRowPitch, hostSlicePitch, (IntPtr)pCmp, 0, null, out event2);
cq.Finish();
if (!CompareArray(cmpData, srcData))
Error("Read-/Write-/CopyRect: (int version)Copy not identical to source when using event output and no event args");
Event[] events = new Event[] { event0, event1, event2 };
cq.EnqueueWriteBufferRect(mem0, false, bufferOffset, hostOffset, region, bufferRowPitch, bufferSlicePitch, hostRowPitch, hostSlicePitch, (IntPtr)pSrc, 3, events, out event3);
cq.EnqueueWaitForEvent(event3);
cq.EnqueueCopyBufferRect(mem0, mem1, bufferOffset, hostOffset, region, bufferRowPitch, bufferSlicePitch, hostRowPitch, hostSlicePitch, 3, events, out event4);
cq.EnqueueWaitForEvent(event4);
Array.Clear(cmpData, 0, cmpData.Length);
cq.EnqueueReadBufferRect(mem1, false, bufferOffset, hostOffset, region, bufferRowPitch, bufferSlicePitch, hostRowPitch, hostSlicePitch, (IntPtr)pCmp, 3, events, out event5);
cq.Finish();
if (!CompareArray(cmpData, srcData))
Error("Read-/Write-/CopyRect: (int version)Copy not identical to source when using event output and event args");
event0.Dispose();
event1.Dispose();
event2.Dispose();
event3.Dispose();
event4.Dispose();
event5.Dispose();
}
{
long[] bufferOffset = new long[3] { 0L, 0L, 0L };
long[] hostOffset = new long[3] { 0L, 0L, 0L };
long[] region = new long[3] { (long)bufWidth, (long)bufHeight, (long)1 };
long bufferRowPitch = bufWidth;
long bufferSlicePitch = 0;
long hostRowPitch = bufWidth;
long hostSlicePitch = 0;
cq.EnqueueWriteBufferRect(mem0, true, bufferOffset, hostOffset, region, bufferRowPitch, bufferSlicePitch, hostRowPitch, hostSlicePitch, (IntPtr)pSrc);
cq.EnqueueCopyBufferRect(mem0, mem1, bufferOffset, hostOffset, region, bufferRowPitch, bufferSlicePitch, hostRowPitch, hostSlicePitch);
cq.Finish();
Array.Clear(cmpData, 0, cmpData.Length);
cq.EnqueueReadBufferRect(mem1, true, bufferOffset, hostOffset, region, bufferRowPitch, bufferSlicePitch, hostRowPitch, hostSlicePitch, (IntPtr)pCmp);
if (!CompareArray(cmpData, srcData))
Error("Read-/Write-/CopyRect: (long version)Copy not identical to source when using no event args");
cq.EnqueueWriteBufferRect(mem0, false, bufferOffset, hostOffset, region, bufferRowPitch, bufferSlicePitch, hostRowPitch, hostSlicePitch, (IntPtr)pSrc, 0, null, out event0);
cq.EnqueueWaitForEvent(event0);
cq.EnqueueCopyBufferRect(mem0, mem1, bufferOffset, hostOffset, region, bufferRowPitch, bufferSlicePitch, hostRowPitch, hostSlicePitch, 0, null, out event1);
cq.EnqueueWaitForEvent(event1);
Array.Clear(cmpData, 0, cmpData.Length);
cq.EnqueueReadBufferRect(mem1, false, bufferOffset, hostOffset, region, bufferRowPitch, bufferSlicePitch, hostRowPitch, hostSlicePitch, (IntPtr)pCmp, 0, null, out event2);
cq.Finish();
if (!CompareArray(cmpData, srcData))
Error("Read-/Write-/CopyRect: (long version)Copy not identical to source when using event output and no event args");
Event[] events = new Event[] { event0, event1, event2 };
cq.EnqueueWriteBufferRect(mem0, false, bufferOffset, hostOffset, region, bufferRowPitch, bufferSlicePitch, hostRowPitch, hostSlicePitch, (IntPtr)pSrc, 3, events, out event3);
cq.EnqueueWaitForEvent(event3);
cq.EnqueueCopyBufferRect(mem0, mem1, bufferOffset, hostOffset, region, bufferRowPitch, bufferSlicePitch, hostRowPitch, hostSlicePitch, 3, events, out event4);
cq.EnqueueWaitForEvent(event4);
Array.Clear(cmpData, 0, cmpData.Length);
cq.EnqueueReadBufferRect(mem1, false, bufferOffset, hostOffset, region, bufferRowPitch, bufferSlicePitch, hostRowPitch, hostSlicePitch, (IntPtr)pCmp, 3, events, out event5);
cq.Finish();
if (!CompareArray(cmpData, srcData))
Error("Read-/Write-/CopyRect: (long version)Copy not identical to source when using event output and event args");
event0.Dispose();
event1.Dispose();
event2.Dispose();
event3.Dispose();
event4.Dispose();
event5.Dispose();
}
}
}
}
catch (Exception e)
{
Error("Exception during testing: " + e.ToString());
}
finally
{
if (mem0 != null)
mem0.Dispose();
if (mem1 != null)
mem1.Dispose();
}
}
private void TestMem(Context c, CommandQueue cq, Dictionary<string, Kernel> kernelDictionary)
{
int size = 8192;
byte[] testData = new byte[size];
Output( "Testing Mem class" );
//Output( "Allocating "+size+" bytes of READ_WRITE memory" );
using (Mem buffer = c.CreateBuffer(MemFlags.READ_WRITE, size, IntPtr.Zero))
{
for (int i = 0; i < size / 2; i++)
{
testData[i] = 0;
testData[size/2+i] = 1;
}
//Output("Mem.MemSize=" + size);
if (buffer.MemSize.ToInt64() != size)
Error("Mem.Size!=input size");
//Output("Mem.MemType=" + buffer.MemType);
if (buffer.MemType != MemObjectType.BUFFER)
Error("Mem.MemType!=MemObjectType.BUFFER");
//Output("Mem.MapCount=" + buffer.MapCount);
if (buffer.MapCount != 0)
Error("Mem.MapCount!=0");
buffer.Write(cq, 0L, testData, 0, size);
Kernel k = kernelDictionary["TestReadWriteMemory"];
k.SetArg(0, buffer);
k.SetArg(1, (long)size);
Event bleh;
cq.EnqueueTask(k,0,null,out bleh);
cq.EnqueueBarrier();
cq.Finish();
buffer.Read(cq, 0L, testData, 0, size);
for (int i = 0; i < size / 2; i++)
{
if (testData[i] != 1)
{
Error("TestReadWriteMemory failed");
break;
}
if( testData[size / 2 + i] != 0 )
{
Error("TestReadWriteMemory failed");
break;
}
}
}
//Output("Allocating " + size + " bytes of READ memory");
using (Mem buffer = c.CreateBuffer(MemFlags.READ_ONLY, size, IntPtr.Zero))
{
//Output("Mem.MemSize=" + size);
if (buffer.MemSize.ToInt64() != size)
Error("Mem.Size!=input size");
//Output("Mem.MemType=" + buffer.MemType);
if (buffer.MemType != MemObjectType.BUFFER)
Error("Mem.MemType!=MemObjectType.BUFFER");
//Output("Mem.MapCount=" + buffer.MapCount);
if (buffer.MapCount != 0)
Error("Mem.MapCount!=0");
Kernel k = kernelDictionary["TestReadMemory"];
k.SetArg(0, buffer);
k.SetArg(1, (long)size);
cq.EnqueueTask(k);
cq.Finish();
}
//Output("Allocating " + size + " bytes of WRITE memory");
using (Mem buffer = c.CreateBuffer(MemFlags.WRITE_ONLY, size, IntPtr.Zero))
{
Array.Clear(testData, 0, size);
//Output("Mem.MemSize=" + size);
if (buffer.MemSize.ToInt64() != size)
Error("Mem.Size!=input size");
//Output("Mem.MemType=" + buffer.MemType);
if (buffer.MemType != MemObjectType.BUFFER)
Error("Mem.MemType!=MemObjectType.BUFFER");
//Output("Mem.MapCount=" + buffer.MapCount);
if (buffer.MapCount != 0)
Error("Mem.MapCount!=0");
Kernel k = kernelDictionary["TestWriteMemory"];
k.SetArg(0, buffer);
k.SetArg(1, (long)size);
cq.EnqueueTask(k);
cq.Finish();
buffer.Read(cq, 0L, testData, 0, size);
for (int i = 0; i < size; i++)
{
if (testData[i] != 1)
{
Error("TestWriteMemory failed");
break;
}
}
}
TestReadWriteCopyOps(c, cq);
TestImageReadWriteCopyOps(c, cq);
TestTransfersBetweenImageAndBuffers(c, cq);
TestMapBuffer(c, cq);
TestEnqueueNDRangeKernel(c, cq, kernelDictionary["EmptyKernel"]);
TestBufferRectFunctions(c, cq);
}