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"); } } }
private void SetAAFLinear(AlignedArrayFloat aaf) { for (int i = 0; i < aaf.Length; i++) aaf[i] = (float)i; }
private bool TestAAF(AlignedArrayFloat aaf, float c) { for (int i = 0; i < aaf.Length; i++) if (aaf[i] != c) return false; return true; }
private void SetAAF(AlignedArrayFloat aaf, float c) { for (int i = 0; i < aaf.Length; i++) aaf[i] = c; }