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add fft_fixstar sample
author Yuhi TOMARI <yuhi@cr.ie.u-ryukyu.ac.jp>
date Mon, 04 Feb 2013 02:59:58 +0900
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children a664602e1819
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#define PI 3.14159265358979323846   
#define PI_2 1.57079632679489661923 
     
__kernel void spinFact(__global float2* w, int n)   
{   
    unsigned int i = get_global_id(0);  
     
    float2 angle = (float2)(2*i*PI/(float)n,(2*i*PI/(float)n)+PI_2);    
    w[i] = cos(angle);  
}   
     
__kernel void bitReverse(__global float2 *dst, __global float2 *src, int m, int n)  
{   
    unsigned int gid = get_global_id(0);    
    unsigned int nid = get_global_id(1);    
     
    unsigned int j = gid;   
    j = (j & 0x55555555) << 1 | (j & 0xAAAAAAAA) >> 1;  
    j = (j & 0x33333333) << 2 | (j & 0xCCCCCCCC) >> 2;  
    j = (j & 0x0F0F0F0F) << 4 | (j & 0xF0F0F0F0) >> 4;  
    j = (j & 0x00FF00FF) << 8 | (j & 0xFF00FF00) >> 8;  
    j = (j & 0x0000FFFF) << 16 | (j & 0xFFFF0000) >> 16;    
     
    j >>= (32-m); 
     
    dst[nid*n+j] = src[nid*n+gid];  
}   
     
__kernel void norm(__global float2 *x, int n)   
{   
    unsigned int gid = get_global_id(0);    
    unsigned int nid = get_global_id(1);    
     
    x[nid*n+gid] = x[nid*n+gid] / (float2)((float)n, (float)n); 
}   
     
__kernel void butterfly(__global float2 *x, __global float2* w, int m, int n, int iter, uint flag)  
{   
    unsigned int gid = get_global_id(0);    
    unsigned int nid = get_global_id(1);    
     
    int butterflySize = 1 << (iter-1);    
    int butterflyGrpDist = 1 << iter; 
    int butterflyGrpNum = n >> iter;  
    int butterflyGrpBase = (gid >> (iter-1))*(butterflyGrpDist);  
    int butterflyGrpOffset = gid & (butterflySize-1);   
     
    int a = nid * n + butterflyGrpBase + butterflyGrpOffset;    
    int b = a + butterflySize;  
     
    int l = butterflyGrpNum * butterflyGrpOffset;   
     
    float2 xa, xb, xbxx, xbyy, wab, wayx, wbyx, resa, resb; 
     
    xa = x[a];  
    xb = x[b];  
    xbxx = xb.xx;   
    xbyy = xb.yy;   
     
    wab = as_float2(as_uint2(w[l]) ^ (uint2)(0x0, flag));   
    wayx = as_float2(as_uint2(wab.yx) ^ (uint2)(0x80000000, 0x0));  
    wbyx = as_float2(as_uint2(wab.yx) ^ (uint2)(0x0, 0x80000000));  
     
    resa = xa + xbxx*wab + xbyy*wayx;   
    resb = xa - xbxx*wab + xbyy*wbyx;   
     
    x[a] = resa;    
    x[b] = resb;    
}   
     
__kernel void transpose(__global float2 *dst, __global float2* src, int n)  
{   
    unsigned int xgid = get_global_id(0);   
    unsigned int ygid = get_global_id(1);   
     
    unsigned int iid = ygid * n + xgid; 
    unsigned int oid = xgid * n + ygid; 
     
    dst[oid] = src[iid];    
}   
     
__kernel void highPassFilter(__global float2* image, int n, int radius) 
{   
    unsigned int xgid = get_global_id(0);   
    unsigned int ygid = get_global_id(1);   
     
    int2 n_2 = (int2)(n>>1, n>>1);  
    int2 mask = (int2)(n-1, n-1);   
     
    int2 gid = ((int2)(xgid, ygid) + n_2) & mask;   
     
    int2 diff = n_2 - gid;  
    int2 diff2 = diff * diff;   
    int dist2 = diff2.x + diff2.y;  
     
    int2 window;    
     
    if (dist2 < radius*radius) { 
        window = (int2)(0L, 0L);    
    } else {    
        window = (int2)(-1L, -1L);  
    }   
        image[ygid*n+xgid] = as_float2(as_int2(image[ygid*n+xgid]) & window);
}