mirror of
https://github.com/Ryujinx/Opentk.git
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116 lines
4.7 KiB
C#
116 lines
4.7 KiB
C#
using System;
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using System.Collections.Generic;
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using System.Text;
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using OpenTK.Compute.CL10;
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namespace Examples
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{
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using cl_context = IntPtr;
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using cl_device_id = IntPtr;
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using cl_command_queue = IntPtr;
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using cl_program = IntPtr;
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using cl_kernel = IntPtr;
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using cl_mem = IntPtr;
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[Example("Vector Addition", ExampleCategory.OpenCL, "1.0")]
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class FFT
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{
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public static void Main()
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{
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const int cnBlockSize = 512;
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const int cnBlocks = 3;
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IntPtr cnDimension = new IntPtr(cnBlocks * cnBlockSize);
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string sProgramSource = @"
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__kernel void
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vectorAdd(__global const float * a,
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__global const float * b,
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__global float * c)
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{
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// Vector element index
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int nIndex = get_global_id(0);
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c[nIndex] = a[nIndex] + b[nIndex];
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}
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";
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ErrorCode error;
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// create OpenCL device & context
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cl_context hContext;
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unsafe { hContext = CL.CreateContextFromType((ContextProperties*)null, DeviceTypeFlags.DeviceTypeDefault, IntPtr.Zero, IntPtr.Zero, &error); }
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// query all devices available to the context
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IntPtr nContextDescriptorSize;
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CL.GetContextInfo(hContext, ContextInfo.ContextDevices, IntPtr.Zero, IntPtr.Zero, out nContextDescriptorSize);
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cl_device_id[] aDevices = new cl_device_id[nContextDescriptorSize.ToInt32()];
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unsafe
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{
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fixed (cl_device_id* ptr = aDevices)
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{
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IntPtr ret;
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CL.GetContextInfo(hContext, ContextInfo.ContextDevices, nContextDescriptorSize, new IntPtr(ptr), out ret);
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}
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}
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// create a command queue for first device the context reported
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cl_command_queue hCmdQueue = CL.CreateCommandQueue(hContext, aDevices[0], (CommandQueueFlags)0, out error);
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// create & compile program
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cl_program hProgram;
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unsafe { hProgram = CL.CreateProgramWithSource(hContext, 1, new string[] { sProgramSource }, null, &error); }
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CL.BuildProgram(hProgram, 0, (IntPtr[])null, null, IntPtr.Zero, IntPtr.Zero);
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// create kernel
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cl_kernel hKernel = CL.CreateKernel(hProgram, "vectorAdd", out error);
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// allocate host vectors
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float[] A = new float[cnDimension.ToInt32()];
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float[] B = new float[cnDimension.ToInt32()];
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float[] C = new float[cnDimension.ToInt32()];
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// initialize host memory
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// randomInit(pA, cnDimension);
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//randomInit(pB, cnDimension);
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// allocate device memory
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unsafe
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{
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fixed (float* pA = A)
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fixed (float* pB = B)
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fixed (float* pC = C)
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{
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cl_mem hDeviceMemA, hDeviceMemB, hDeviceMemC;
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hDeviceMemA = CL.CreateBuffer(hContext,
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MemFlags.MemReadOnly | MemFlags.MemCopyHostPtr,
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new IntPtr(cnDimension.ToInt32() * sizeof(float)),
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new IntPtr(pA),
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out error);
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hDeviceMemB = CL.CreateBuffer(hContext,
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MemFlags.MemReadOnly | MemFlags.MemCopyHostPtr,
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new IntPtr(cnDimension.ToInt32() * sizeof(float)),
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new IntPtr(pA),
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out error);
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hDeviceMemC = CL.CreateBuffer(hContext,
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MemFlags.MemWriteOnly,
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new IntPtr(cnDimension.ToInt32() * sizeof(float)),
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IntPtr.Zero,
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out error);
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// setup parameter values
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CL.SetKernelArg(hKernel, 0, new IntPtr(sizeof(cl_mem)), new IntPtr(&hDeviceMemA));
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CL.SetKernelArg(hKernel, 1, new IntPtr(sizeof(cl_mem)), new IntPtr(&hDeviceMemB));
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CL.SetKernelArg(hKernel, 2, new IntPtr(sizeof(cl_mem)), new IntPtr(&hDeviceMemC));
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// execute kernel
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CL.EnqueueNDRangeKernel(hCmdQueue, hKernel, 1, null, &cnDimension, null, 0, null, null);
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// copy results from device back to host
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CL.EnqueueReadBuffer(hContext, hDeviceMemC, true, IntPtr.Zero,
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new IntPtr(cnDimension.ToInt32() * sizeof(float)),
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new IntPtr(pC), 0, null, (IntPtr[])null);
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CL.ReleaseMemObject(hDeviceMemA);
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CL.ReleaseMemObject(hDeviceMemB);
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CL.ReleaseMemObject(hDeviceMemC);
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}
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}
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}
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}
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}
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