1 __global__ void kernel_medianV_sh( short *output, int i_dim, int j_dim, int r)
4 int idc, val, min, max, inf, egal, sup, mxinf, minsup, estim ;
6 //coordinates in the block
9 int idx_h = __mul24(ib+r,blockDim.x) + jb ; // index pixel deans shmem (bloc+halo)
10 int offset = __mul24(blockDim.x,r) ;
12 // coordonnees absolues du point
13 int j = __mul24(blockIdx.x,blockDim.x) + jb ;
14 int i = __mul24(blockIdx.y,blockDim.y) + ib ;
16 extern __shared__ int buff[] ;
17 /***********************************************************************************
18 * CHARGEMENT DATA EN SHARED MEM
19 ***********************************************************************************/
20 buff[ idx_h ] = tex2D(tex_img_ins, j, i) ;
24 buff[ idx_h - offset ] = tex2D(tex_img_ins, j, i-r) ;
26 if (ib >= (blockDim.y-r))
28 buff[ idx_h + offset ] = tex2D(tex_img_ins, j, i+r) ;
32 /**********************************************************************************************
33 * TRI VERTICAL par algo TORBEN MOGENSEN
34 * (a little bit slow but saves memory => faster !)
35 **********************************************************************************************/
36 min = max = buff[ ib*blockDim.x +jb] ;
38 for (idc= 0 ; idc< 2*r+1 ; idc++ )
40 val = buff[ __mul24(ib+idc, blockDim.x) +jb ] ;
41 if ( val < min ) min = val ;
42 if ( val > max ) max = val ;
48 inf = sup = egal = 0 ;
51 for (idc =0; idc< 2*r+1 ; idc++)
53 val = buff[ __mul24(ib+idc, blockDim.x) +jb ] ;
57 if( val > mxinf) mxinf = val ;
58 } else if (val > estim)
61 if( val < minsup) minsup = val ;
64 if ( (inf <= (r+1))&&(sup <=(r+1)) ) break ;
65 else if (inf>sup) max = mxinf ;
69 if ( inf >= r+1 ) val = mxinf ;
70 else if (inf+egal >= r+1) val = estim ;
73 output[ __mul24(j, i_dim) +i ] = val ;
