2009-07-28 21:32:10 +00:00
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// Copyright (C) 2003 Dolphin Project.
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2008-12-08 05:30:24 +00:00
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// This program is free software: you can redistribute it and/or modify
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// it under the terms of the GNU General Public License as published by
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// the Free Software Foundation, version 2.0.
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// This program is distributed in the hope that it will be useful,
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// but WITHOUT ANY WARRANTY; without even the implied warranty of
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// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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// GNU General Public License 2.0 for more details.
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// A copy of the GPL 2.0 should have been included with the program.
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// If not, see http://www.gnu.org/licenses/
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// Official SVN repository and contact information can be found at
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// http://code.google.com/p/dolphin-emu/
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#if _WIN32
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#include <intrin.h>
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#endif
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2009-10-07 02:48:21 +00:00
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#include "OpenCL.h"
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2008-12-08 05:30:24 +00:00
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#include <xmmintrin.h>
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#include "XFBConvert.h"
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#include "Common.h"
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namespace {
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const __m128i _bias1 = _mm_set_epi32(128/2 << 16, 0, 128/2 << 16, 16 << 16);
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const __m128i _bias2 = _mm_set_epi32(128/2 << 16, 16 << 16, 128/2 << 16, 0);
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__m128i _y[256];
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__m128i _u[256];
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__m128i _v[256];
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__m128i _r1[256];
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__m128i _r2[256];
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__m128i _g1[256];
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__m128i _g2[256];
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__m128i _b1[256];
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__m128i _b2[256];
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} // namespace
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2011-01-06 01:11:32 +00:00
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bool Inited = false;
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2008-12-08 05:30:24 +00:00
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2009-10-07 03:11:52 +00:00
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cl_kernel To_kernel;
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cl_program To_program;
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cl_kernel From_kernel;
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cl_program From_program;
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2009-10-07 02:48:21 +00:00
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const char *__ConvertFromXFB = "int bound(int i) \n \
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{ \n \
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return (i>255)?255:((i<0)?0:i); \n \
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} \n \
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\n \
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void yuv2rgb(int y, int u, int v, int &r, int &g, int &b) \n \
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{ \n \
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b = bound((76283*(y - 16) + 132252*(u - 128))>>16); \n \
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g = bound((76283*(y - 16) - 53281 *(v - 128) - 25624*(u - 128))>>16); //last one u? \n \
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r = bound((76283*(y - 16) + 104595*(v - 128))>>16); \n \
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} \n \
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\n \
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void ConvertFromXFB(u32 *dst, const u8* _pXFB) \n \
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{ \n \
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const unsigned char *src = _pXFB; \n \
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int id = get_global_id(0); \n \
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int srcOffset = id * 4; \n \
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int dstOffset = id; \n \
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u32 numBlocks = (width * height) / 2; \n \
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\n \
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int Y1 = src[srcOffset]; \n \
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int U = src[srcOffset + 1]; \n \
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int Y2 = src[srcOffset + 2]; \n \
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int V = src[srcOffset + 3]; \n \
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\n \
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int r, g, b; \n \
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yuv2rgb(Y1,U,V, r,g,b); \n \
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dst[dstOffset] = 0xFF000000 | (r<<16) | (g<<8) | (b); \n \
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yuv2rgb(Y2,U,V, r,g,b); \n \
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dst[dstOffset + 1] = 0xFF000000 | (r<<16) | (g<<8) | (b); \n \
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} \n";
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2009-10-07 03:11:52 +00:00
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const char *__ConvertToXFB = "__kernel void ConvertToXFB(__global unsigned int *dst, __global const unsigned char* _pEFB) \n \
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{ \n \
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const unsigned char *src = _pEFB;\n \
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int id = get_global_id(0);\n \
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2009-10-07 04:00:29 +00:00
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int srcOffset = id * 8; \n \
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2009-10-07 03:11:52 +00:00
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\n \
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2009-10-07 04:00:29 +00:00
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int y1 = (((16843 * src[srcOffset]) + (33030 * src[srcOffset + 1]) + (6423 * src[srcOffset + 2])) >> 16) + 16; \n \
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int u1 = ((-(9699 * src[srcOffset]) - (19071 * src[srcOffset + 1]) + (28770 * src[srcOffset + 2])) >> 16) + 128;\n \
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srcOffset += 4;\n \
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2009-10-07 03:11:52 +00:00
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\n \
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2009-10-07 04:00:29 +00:00
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int y2 = (((16843 * src[srcOffset]) + (33030 * src[srcOffset + 1]) + (6423 * src[srcOffset + 2])) >> 16) + 16;\n \
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int v2 = (((28770 * src[srcOffset]) - (24117 * src[srcOffset + 1]) - (4653 * src[srcOffset + 2])) >> 16) + 128;\n \
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2009-10-07 03:11:52 +00:00
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\n \
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dst[id] = (v2 << 24) | (y2 << 16) | (u1 << 8) | (y1); \n \
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} \n ";
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void InitKernels()
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{
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From_program = OpenCL::CompileProgram(__ConvertFromXFB);
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From_kernel = OpenCL::CompileKernel(From_program, "ConvertFromXFB");
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To_program = OpenCL::CompileProgram(__ConvertToXFB);
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To_kernel = OpenCL::CompileKernel(To_program, "ConvertToXFB");
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Inited = true;
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}
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2011-01-06 01:11:32 +00:00
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2009-10-07 03:11:52 +00:00
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void InitXFBConvTables()
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{
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for (int i = 0; i < 256; i++)
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{
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_y[i] = _mm_set_epi32(0xFFFFFFF, 76283*(i - 16), 76283*(i - 16), 76283*(i - 16));
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_u[i] = _mm_set_epi32( 0, 0, -25624 * (i - 128), 132252 * (i - 128));
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_v[i] = _mm_set_epi32( 0, 104595 * (i - 128), -53281 * (i - 128), 0);
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_r1[i] = _mm_add_epi32(_mm_set_epi32( 28770 * i / 2, 0, -9699 * i / 2, 16843 * i),
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_bias1);
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_g1[i] = _mm_set_epi32(-24117 * i / 2, 0, -19071 * i / 2, 33030 * i);
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_b1[i] = _mm_set_epi32( -4653 * i / 2, 0, 28770 * i / 2, 6423 * i);
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_r2[i] = _mm_add_epi32(_mm_set_epi32( 28770 * i / 2, 16843 * i, -9699 * i / 2, 0),
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_bias2);
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_g2[i] = _mm_set_epi32(-24117 * i / 2, 33030 * i, -19071 * i / 2, 0);
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_b2[i] = _mm_set_epi32( -4653 * i / 2, 6423 * i, 28770 * i / 2, 0);
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}
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}
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2008-12-08 05:30:24 +00:00
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void ConvertFromXFB(u32 *dst, const u8* _pXFB, int width, int height)
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{
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if (((size_t)dst & 0xF) != 0) {
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PanicAlert("ConvertFromXFB - unaligned destination");
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2009-10-07 02:48:21 +00:00
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}
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const unsigned char *src = _pXFB;
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2008-12-08 05:30:24 +00:00
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u32 numBlocks = ((width * height) / 2) / 2;
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2009-10-07 03:11:52 +00:00
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if(!Inited)
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InitKernels();
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2009-10-07 02:48:21 +00:00
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int err;
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size_t global = 0; // global domain size for our calculation
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size_t local = 0; // local domain size for our calculation
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printf("width %d, height %d\n", width, height);
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// Create the input and output arrays in device memory for our calculation
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//
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cl_mem _dst = clCreateBuffer(OpenCL::g_context, CL_MEM_WRITE_ONLY, sizeof(unsigned int) * numBlocks, NULL, NULL);
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if (!dst)
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{
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printf("Error: Failed to allocate device memory!\n");
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exit(1);
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}
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cl_mem _src = clCreateBuffer(OpenCL::g_context, CL_MEM_READ_ONLY | CL_MEM_COPY_HOST_PTR, sizeof(unsigned char) * width * height, (void*)_pXFB, NULL);
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if (!src)
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{
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printf("Error: Failed to allocate device memory!\n");
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exit(1);
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}
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// Set the arguments to our compute kernel
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//
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err = 0;
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2009-10-07 03:11:52 +00:00
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err = clSetKernelArg(From_kernel, 0, sizeof(cl_mem), &_dst);
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err |= clSetKernelArg(From_kernel, 1, sizeof(cl_mem), &_src);
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2009-10-07 02:48:21 +00:00
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if (err != CL_SUCCESS)
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{
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printf("Error: Failed to set kernel arguments! %d\n", err);
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exit(1);
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}
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// Get the maximum work group size for executing the kernel on the device
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//
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2009-10-07 07:44:35 +00:00
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err = clGetKernelWorkGroupInfo(From_kernel, OpenCL::device_id, CL_KERNEL_WORK_GROUP_SIZE, sizeof(size_t), &local, NULL);
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2009-10-07 02:48:21 +00:00
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if (err != CL_SUCCESS)
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{
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printf("Error: Failed to retrieve kernel work group info! %d\n", err);
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2009-10-07 07:44:35 +00:00
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local = 64;
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2009-10-07 02:48:21 +00:00
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}
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2009-10-07 04:00:29 +00:00
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2009-10-07 02:48:21 +00:00
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// Execute the kernel over the entire range of our 1d input data set
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// using the maximum number of work group items for this device
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//
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global = numBlocks;
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if(global < local)
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{
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// Global can't be less than local
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}
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2009-10-07 03:11:52 +00:00
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err = clEnqueueNDRangeKernel(OpenCL::g_cmdq, From_kernel, 1, NULL, &global, &local, 0, NULL, NULL);
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2009-10-07 02:48:21 +00:00
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if (err != CL_SUCCESS)
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{
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printf("Error: Failed to execute kernel! %d\n", err);
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return;
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}
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// Wait for the command commands to get serviced before reading back results
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//
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clFinish(OpenCL::g_cmdq);
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// Read back the results from the device to verify the output
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//
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err = clEnqueueReadBuffer( OpenCL::g_cmdq, _dst, CL_TRUE, 0, sizeof(unsigned int) * numBlocks, dst, 0, NULL, NULL );
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if (err != CL_SUCCESS)
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{
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printf("Error: Failed to read output array! %d\n", err);
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exit(1);
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}
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clReleaseMemObject(_dst);
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clReleaseMemObject(_src);
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2008-12-08 05:30:24 +00:00
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}
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2009-10-07 02:48:21 +00:00
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2008-12-08 05:30:24 +00:00
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void ConvertToXFB(u32 *dst, const u8* _pEFB, int width, int height)
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{
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const unsigned char *src = _pEFB;
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u32 numBlocks = ((width * height) / 2) / 4;
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if (((size_t)dst & 0xF) != 0) {
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PanicAlert("ConvertToXFB - unaligned XFB");
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}
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2009-10-07 03:11:52 +00:00
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if(!Inited)
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InitKernels();
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2009-10-07 02:48:21 +00:00
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int err;
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size_t global = 0; // global domain size for our calculation
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size_t local = 0; // local domain size for our calculation
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printf("width %d, height %d\n", width, height);
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// Create the input and output arrays in device memory for our calculation
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//
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cl_mem _dst = clCreateBuffer(OpenCL::g_context, CL_MEM_WRITE_ONLY, sizeof(unsigned int) * numBlocks, NULL, NULL);
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if (!dst)
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{
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printf("Error: Failed to allocate device memory!\n");
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exit(1);
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}
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cl_mem _src = clCreateBuffer(OpenCL::g_context, CL_MEM_READ_ONLY | CL_MEM_COPY_HOST_PTR, sizeof(unsigned char) * width * height, (void*)_pEFB, NULL);
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if (!src)
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{
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printf("Error: Failed to allocate device memory!\n");
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exit(1);
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}
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// Set the arguments to our compute kernel
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//
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err = 0;
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2009-10-07 03:11:52 +00:00
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err = clSetKernelArg(To_kernel, 0, sizeof(cl_mem), &_dst);
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err |= clSetKernelArg(To_kernel, 1, sizeof(cl_mem), &_src);
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2009-10-07 02:48:21 +00:00
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if (err != CL_SUCCESS)
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{
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printf("Error: Failed to set kernel arguments! %d\n", err);
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exit(1);
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}
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// Get the maximum work group size for executing the kernel on the device
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//
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2009-10-07 07:44:35 +00:00
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err = clGetKernelWorkGroupInfo(To_kernel, OpenCL::device_id, CL_KERNEL_WORK_GROUP_SIZE, sizeof(size_t), &local, NULL);
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2009-10-07 02:48:21 +00:00
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if (err != CL_SUCCESS)
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{
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printf("Error: Failed to retrieve kernel work group info! %d\n", err);
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2009-10-07 04:00:29 +00:00
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local = 64;
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2009-10-07 02:48:21 +00:00
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}
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2009-10-07 04:00:29 +00:00
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2009-10-07 02:48:21 +00:00
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// Execute the kernel over the entire range of our 1d input data set
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// using the maximum number of work group items for this device
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//
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global = numBlocks;
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if(global < local)
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{
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// Global can't be less than local
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}
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2009-10-07 03:11:52 +00:00
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err = clEnqueueNDRangeKernel(OpenCL::g_cmdq, To_kernel, 1, NULL, &global, &local, 0, NULL, NULL);
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2009-10-07 02:48:21 +00:00
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if (err != CL_SUCCESS)
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{
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printf("Error: Failed to execute kernel! %d\n", err);
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return;
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}
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// Wait for the command commands to get serviced before reading back results
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//
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clFinish(OpenCL::g_cmdq);
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2008-12-08 05:30:24 +00:00
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2009-10-07 02:48:21 +00:00
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// Read back the results from the device to verify the output
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//
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err = clEnqueueReadBuffer( OpenCL::g_cmdq, _dst, CL_TRUE, 0, sizeof(unsigned int) * numBlocks, dst, 0, NULL, NULL );
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if (err != CL_SUCCESS)
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{
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printf("Error: Failed to read output array! %d\n", err);
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exit(1);
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}
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clReleaseMemObject(_dst);
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clReleaseMemObject(_src);
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2008-12-08 05:30:24 +00:00
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}
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