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view fft_Example/fft_base_kernels.h @ 2:ccea4e6a1945
add OpenCL example
| author | Yuhi TOMARI <yuhi@cr.ie.u-ryukyu.ac.jp> |
|---|---|
| date | Tue, 22 Jan 2013 23:19:41 +0900 |
| parents | |
| children | ea2e7ce9d5bb |
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// // File: fft_base_kernels.h // // Version: <1.0> // // Disclaimer: IMPORTANT: This Apple software is supplied to you by Apple Inc. ("Apple") // in consideration of your agreement to the following terms, and your use, // installation, modification or redistribution of this Apple software // constitutes acceptance of these terms. If you do not agree with these // terms, please do not use, install, modify or redistribute this Apple // software. // // In consideration of your agreement to abide by the following terms, and // subject to these terms, Apple grants you a personal, non - exclusive // license, under Apple's copyrights in this original Apple software ( the // "Apple Software" ), to use, reproduce, modify and redistribute the Apple // Software, with or without modifications, in source and / or binary forms; // provided that if you redistribute the Apple Software in its entirety and // without modifications, you must retain this notice and the following text // and disclaimers in all such redistributions of the Apple Software. Neither // the name, trademarks, service marks or logos of Apple Inc. may be used to // endorse or promote products derived from the Apple Software without specific // prior written permission from Apple. Except as expressly stated in this // notice, no other rights or licenses, express or implied, are granted by // Apple herein, including but not limited to any patent rights that may be // infringed by your derivative works or by other works in which the Apple // Software may be incorporated. // // The Apple Software is provided by Apple on an "AS IS" basis. APPLE MAKES NO // WARRANTIES, EXPRESS OR IMPLIED, INCLUDING WITHOUT LIMITATION THE IMPLIED // WARRANTIES OF NON - INFRINGEMENT, MERCHANTABILITY AND FITNESS FOR A // PARTICULAR PURPOSE, REGARDING THE APPLE SOFTWARE OR ITS USE AND OPERATION // ALONE OR IN COMBINATION WITH YOUR PRODUCTS. // // IN NO EVENT SHALL APPLE BE LIABLE FOR ANY SPECIAL, INDIRECT, INCIDENTAL OR // CONSEQUENTIAL DAMAGES ( INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF // SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS // INTERRUPTION ) ARISING IN ANY WAY OUT OF THE USE, REPRODUCTION, MODIFICATION // AND / OR DISTRIBUTION OF THE APPLE SOFTWARE, HOWEVER CAUSED AND WHETHER // UNDER THEORY OF CONTRACT, TORT ( INCLUDING NEGLIGENCE ), STRICT LIABILITY OR // OTHERWISE, EVEN IF APPLE HAS BEEN ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. // // Copyright ( C ) 2008 Apple Inc. All Rights Reserved. // //////////////////////////////////////////////////////////////////////////////////////////////////// #ifndef __CL_FFT_BASE_KERNELS_ #define __CL_FFT_BASE_KERNELS_ #include <string> using namespace std; static string baseKernels = string( "#ifndef M_PI\n" "#define M_PI 0x1.921fb54442d18p+1\n" "#endif\n" "#define complexMul(a,b) ((float2)(mad(-(a).y, (b).y, (a).x * (b).x), mad((a).y, (b).x, (a).x * (b).y)))\n" "#define conj(a) ((float2)((a).x, -(a).y))\n" "#define conjTransp(a) ((float2)(-(a).y, (a).x))\n" "\n" "#define fftKernel2(a,dir) \\\n" "{ \\\n" " float2 c = (a)[0]; \\\n" " (a)[0] = c + (a)[1]; \\\n" " (a)[1] = c - (a)[1]; \\\n" "}\n" "\n" "#define fftKernel2S(d1,d2,dir) \\\n" "{ \\\n" " float2 c = (d1); \\\n" " (d1) = c + (d2); \\\n" " (d2) = c - (d2); \\\n" "}\n" "\n" "#define fftKernel4(a,dir) \\\n" "{ \\\n" " fftKernel2S((a)[0], (a)[2], dir); \\\n" " fftKernel2S((a)[1], (a)[3], dir); \\\n" " fftKernel2S((a)[0], (a)[1], dir); \\\n" " (a)[3] = (float2)(dir)*(conjTransp((a)[3])); \\\n" " fftKernel2S((a)[2], (a)[3], dir); \\\n" " float2 c = (a)[1]; \\\n" " (a)[1] = (a)[2]; \\\n" " (a)[2] = c; \\\n" "}\n" "\n" "#define fftKernel4s(a0,a1,a2,a3,dir) \\\n" "{ \\\n" " fftKernel2S((a0), (a2), dir); \\\n" " fftKernel2S((a1), (a3), dir); \\\n" " fftKernel2S((a0), (a1), dir); \\\n" " (a3) = (float2)(dir)*(conjTransp((a3))); \\\n" " fftKernel2S((a2), (a3), dir); \\\n" " float2 c = (a1); \\\n" " (a1) = (a2); \\\n" " (a2) = c; \\\n" "}\n" "\n" "#define bitreverse8(a) \\\n" "{ \\\n" " float2 c; \\\n" " c = (a)[1]; \\\n" " (a)[1] = (a)[4]; \\\n" " (a)[4] = c; \\\n" " c = (a)[3]; \\\n" " (a)[3] = (a)[6]; \\\n" " (a)[6] = c; \\\n" "}\n" "\n" "#define fftKernel8(a,dir) \\\n" "{ \\\n" " const float2 w1 = (float2)(0x1.6a09e6p-1f, dir*0x1.6a09e6p-1f); \\\n" " const float2 w3 = (float2)(-0x1.6a09e6p-1f, dir*0x1.6a09e6p-1f); \\\n" " float2 c; \\\n" " fftKernel2S((a)[0], (a)[4], dir); \\\n" " fftKernel2S((a)[1], (a)[5], dir); \\\n" " fftKernel2S((a)[2], (a)[6], dir); \\\n" " fftKernel2S((a)[3], (a)[7], dir); \\\n" " (a)[5] = complexMul(w1, (a)[5]); \\\n" " (a)[6] = (float2)(dir)*(conjTransp((a)[6])); \\\n" " (a)[7] = complexMul(w3, (a)[7]); \\\n" " fftKernel2S((a)[0], (a)[2], dir); \\\n" " fftKernel2S((a)[1], (a)[3], dir); \\\n" " fftKernel2S((a)[4], (a)[6], dir); \\\n" " fftKernel2S((a)[5], (a)[7], dir); \\\n" " (a)[3] = (float2)(dir)*(conjTransp((a)[3])); \\\n" " (a)[7] = (float2)(dir)*(conjTransp((a)[7])); \\\n" " fftKernel2S((a)[0], (a)[1], dir); \\\n" " fftKernel2S((a)[2], (a)[3], dir); \\\n" " fftKernel2S((a)[4], (a)[5], dir); \\\n" " fftKernel2S((a)[6], (a)[7], dir); \\\n" " bitreverse8((a)); \\\n" "}\n" "\n" "#define bitreverse4x4(a) \\\n" "{ \\\n" " float2 c; \\\n" " c = (a)[1]; (a)[1] = (a)[4]; (a)[4] = c; \\\n" " c = (a)[2]; (a)[2] = (a)[8]; (a)[8] = c; \\\n" " c = (a)[3]; (a)[3] = (a)[12]; (a)[12] = c; \\\n" " c = (a)[6]; (a)[6] = (a)[9]; (a)[9] = c; \\\n" " c = (a)[7]; (a)[7] = (a)[13]; (a)[13] = c; \\\n" " c = (a)[11]; (a)[11] = (a)[14]; (a)[14] = c; \\\n" "}\n" "\n" "#define fftKernel16(a,dir) \\\n" "{ \\\n" " const float w0 = 0x1.d906bcp-1f; \\\n" " const float w1 = 0x1.87de2ap-2f; \\\n" " const float w2 = 0x1.6a09e6p-1f; \\\n" " fftKernel4s((a)[0], (a)[4], (a)[8], (a)[12], dir); \\\n" " fftKernel4s((a)[1], (a)[5], (a)[9], (a)[13], dir); \\\n" " fftKernel4s((a)[2], (a)[6], (a)[10], (a)[14], dir); \\\n" " fftKernel4s((a)[3], (a)[7], (a)[11], (a)[15], dir); \\\n" " (a)[5] = complexMul((a)[5], (float2)(w0, dir*w1)); \\\n" " (a)[6] = complexMul((a)[6], (float2)(w2, dir*w2)); \\\n" " (a)[7] = complexMul((a)[7], (float2)(w1, dir*w0)); \\\n" " (a)[9] = complexMul((a)[9], (float2)(w2, dir*w2)); \\\n" " (a)[10] = (float2)(dir)*(conjTransp((a)[10])); \\\n" " (a)[11] = complexMul((a)[11], (float2)(-w2, dir*w2)); \\\n" " (a)[13] = complexMul((a)[13], (float2)(w1, dir*w0)); \\\n" " (a)[14] = complexMul((a)[14], (float2)(-w2, dir*w2)); \\\n" " (a)[15] = complexMul((a)[15], (float2)(-w0, dir*-w1)); \\\n" " fftKernel4((a), dir); \\\n" " fftKernel4((a) + 4, dir); \\\n" " fftKernel4((a) + 8, dir); \\\n" " fftKernel4((a) + 12, dir); \\\n" " bitreverse4x4((a)); \\\n" "}\n" "\n" "#define bitreverse32(a) \\\n" "{ \\\n" " float2 c1, c2; \\\n" " c1 = (a)[2]; (a)[2] = (a)[1]; c2 = (a)[4]; (a)[4] = c1; c1 = (a)[8]; (a)[8] = c2; c2 = (a)[16]; (a)[16] = c1; (a)[1] = c2; \\\n" " c1 = (a)[6]; (a)[6] = (a)[3]; c2 = (a)[12]; (a)[12] = c1; c1 = (a)[24]; (a)[24] = c2; c2 = (a)[17]; (a)[17] = c1; (a)[3] = c2; \\\n" " c1 = (a)[10]; (a)[10] = (a)[5]; c2 = (a)[20]; (a)[20] = c1; c1 = (a)[9]; (a)[9] = c2; c2 = (a)[18]; (a)[18] = c1; (a)[5] = c2; \\\n" " c1 = (a)[14]; (a)[14] = (a)[7]; c2 = (a)[28]; (a)[28] = c1; c1 = (a)[25]; (a)[25] = c2; c2 = (a)[19]; (a)[19] = c1; (a)[7] = c2; \\\n" " c1 = (a)[22]; (a)[22] = (a)[11]; c2 = (a)[13]; (a)[13] = c1; c1 = (a)[26]; (a)[26] = c2; c2 = (a)[21]; (a)[21] = c1; (a)[11] = c2; \\\n" " c1 = (a)[30]; (a)[30] = (a)[15]; c2 = (a)[29]; (a)[29] = c1; c1 = (a)[27]; (a)[27] = c2; c2 = (a)[23]; (a)[23] = c1; (a)[15] = c2; \\\n" "}\n" "\n" "#define fftKernel32(a,dir) \\\n" "{ \\\n" " fftKernel2S((a)[0], (a)[16], dir); \\\n" " fftKernel2S((a)[1], (a)[17], dir); \\\n" " fftKernel2S((a)[2], (a)[18], dir); \\\n" " fftKernel2S((a)[3], (a)[19], dir); \\\n" " fftKernel2S((a)[4], (a)[20], dir); \\\n" " fftKernel2S((a)[5], (a)[21], dir); \\\n" " fftKernel2S((a)[6], (a)[22], dir); \\\n" " fftKernel2S((a)[7], (a)[23], dir); \\\n" " fftKernel2S((a)[8], (a)[24], dir); \\\n" " fftKernel2S((a)[9], (a)[25], dir); \\\n" " fftKernel2S((a)[10], (a)[26], dir); \\\n" " fftKernel2S((a)[11], (a)[27], dir); \\\n" " fftKernel2S((a)[12], (a)[28], dir); \\\n" " fftKernel2S((a)[13], (a)[29], dir); \\\n" " fftKernel2S((a)[14], (a)[30], dir); \\\n" " fftKernel2S((a)[15], (a)[31], dir); \\\n" " (a)[17] = complexMul((a)[17], (float2)(0x1.f6297cp-1f, dir*0x1.8f8b84p-3f)); \\\n" " (a)[18] = complexMul((a)[18], (float2)(0x1.d906bcp-1f, dir*0x1.87de2ap-2f)); \\\n" " (a)[19] = complexMul((a)[19], (float2)(0x1.a9b662p-1f, dir*0x1.1c73b4p-1f)); \\\n" " (a)[20] = complexMul((a)[20], (float2)(0x1.6a09e6p-1f, dir*0x1.6a09e6p-1f)); \\\n" " (a)[21] = complexMul((a)[21], (float2)(0x1.1c73b4p-1f, dir*0x1.a9b662p-1f)); \\\n" " (a)[22] = complexMul((a)[22], (float2)(0x1.87de2ap-2f, dir*0x1.d906bcp-1f)); \\\n" " (a)[23] = complexMul((a)[23], (float2)(0x1.8f8b84p-3f, dir*0x1.f6297cp-1f)); \\\n" " (a)[24] = complexMul((a)[24], (float2)(0x0p+0f, dir*0x1p+0f)); \\\n" " (a)[25] = complexMul((a)[25], (float2)(-0x1.8f8b84p-3f, dir*0x1.f6297cp-1f)); \\\n" " (a)[26] = complexMul((a)[26], (float2)(-0x1.87de2ap-2f, dir*0x1.d906bcp-1f)); \\\n" " (a)[27] = complexMul((a)[27], (float2)(-0x1.1c73b4p-1f, dir*0x1.a9b662p-1f)); \\\n" " (a)[28] = complexMul((a)[28], (float2)(-0x1.6a09e6p-1f, dir*0x1.6a09e6p-1f)); \\\n" " (a)[29] = complexMul((a)[29], (float2)(-0x1.a9b662p-1f, dir*0x1.1c73b4p-1f)); \\\n" " (a)[30] = complexMul((a)[30], (float2)(-0x1.d906bcp-1f, dir*0x1.87de2ap-2f)); \\\n" " (a)[31] = complexMul((a)[31], (float2)(-0x1.f6297cp-1f, dir*0x1.8f8b84p-3f)); \\\n" " fftKernel16((a), dir); \\\n" " fftKernel16((a) + 16, dir); \\\n" " bitreverse32((a)); \\\n" "}\n\n" ); static string twistKernelInterleaved = string( "__kernel void \\\n" "clFFT_1DTwistInterleaved(__global float2 *in, unsigned int startRow, unsigned int numCols, unsigned int N, unsigned int numRowsToProcess, int dir) \\\n" "{ \\\n" " float2 a, w; \\\n" " float ang; \\\n" " unsigned int j; \\\n" " unsigned int i = get_global_id(0); \\\n" " unsigned int startIndex = i; \\\n" " \\\n" " if(i < numCols) \\\n" " { \\\n" " for(j = 0; j < numRowsToProcess; j++) \\\n" " { \\\n" " a = in[startIndex]; \\\n" " ang = 2.0f * M_PI * dir * i * (startRow + j) / N; \\\n" " w = (float2)(native_cos(ang), native_sin(ang)); \\\n" " a = complexMul(a, w); \\\n" " in[startIndex] = a; \\\n" " startIndex += numCols; \\\n" " } \\\n" " } \\\n" "} \\\n" ); static string twistKernelPlannar = string( "__kernel void \\\n" "clFFT_1DTwistSplit(__global float *in_real, __global float *in_imag , unsigned int startRow, unsigned int numCols, unsigned int N, unsigned int numRowsToProcess, int dir) \\\n" "{ \\\n" " float2 a, w; \\\n" " float ang; \\\n" " unsigned int j; \\\n" " unsigned int i = get_global_id(0); \\\n" " unsigned int startIndex = i; \\\n" " \\\n" " if(i < numCols) \\\n" " { \\\n" " for(j = 0; j < numRowsToProcess; j++) \\\n" " { \\\n" " a = (float2)(in_real[startIndex], in_imag[startIndex]); \\\n" " ang = 2.0f * M_PI * dir * i * (startRow + j) / N; \\\n" " w = (float2)(native_cos(ang), native_sin(ang)); \\\n" " a = complexMul(a, w); \\\n" " in_real[startIndex] = a.x; \\\n" " in_imag[startIndex] = a.y; \\\n" " startIndex += numCols; \\\n" " } \\\n" " } \\\n" "} \\\n" ); #endif