tests/tests/renderscript/src/android/renderscript/cts/intrinsic_convolve5x5.rs - platform/cts - Git at Google

 /*
  * Copyright (C) 2013 The Android Open Source Project
  *
  * Licensed under the Apache License, Version 2.0 (the "License");
  * you may not use this file except in compliance with the License.
  * You may obtain a copy of the License at
  *
  *      http://www.apache.org/licenses/LICENSE-2.0
  *
  * Unless required by applicable law or agreed to in writing, software
  * distributed under the License is distributed on an "AS IS" BASIS,
  * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
  * See the License for the specific language governing permissions and
  * limitations under the License.
  */

 #include "shared.rsh"


 int32_t gWidth;
 int32_t gHeight;
 rs_allocation gIn;

 float gCoeffs[25];

 uchar4 __attribute__((kernel)) convolve_U4(uint32_t x, uint32_t y) {
     uint32_t x0 = max((int32_t)x-2, 0);
     uint32_t x1 = max((int32_t)x-1, 0);
     uint32_t x2 = x;
     uint32_t x3 = min((int32_t)x+1, gWidth-1);
     uint32_t x4 = min((int32_t)x+2, gWidth-1);

     uint32_t y0 = max((int32_t)y-2, 0);
     uint32_t y1 = max((int32_t)y-1, 0);
     uint32_t y2 = y;
     uint32_t y3 = min((int32_t)y+1, gHeight-1);
     uint32_t y4 = min((int32_t)y+2, gHeight-1);

     float4 p0 = convert_float4(rsGetElementAt_uchar4(gIn, x0, y0)) * gCoeffs[0]
               + convert_float4(rsGetElementAt_uchar4(gIn, x1, y0)) * gCoeffs[1]
               + convert_float4(rsGetElementAt_uchar4(gIn, x2, y0)) * gCoeffs[2]
               + convert_float4(rsGetElementAt_uchar4(gIn, x3, y0)) * gCoeffs[3]
               + convert_float4(rsGetElementAt_uchar4(gIn, x4, y0)) * gCoeffs[4];

     float4 p1 = convert_float4(rsGetElementAt_uchar4(gIn, x0, y1)) * gCoeffs[5]
               + convert_float4(rsGetElementAt_uchar4(gIn, x1, y1)) * gCoeffs[6]
               + convert_float4(rsGetElementAt_uchar4(gIn, x2, y1)) * gCoeffs[7]
               + convert_float4(rsGetElementAt_uchar4(gIn, x3, y1)) * gCoeffs[8]
               + convert_float4(rsGetElementAt_uchar4(gIn, x4, y1)) * gCoeffs[9];

     float4 p2 = convert_float4(rsGetElementAt_uchar4(gIn, x0, y2)) * gCoeffs[10]
               + convert_float4(rsGetElementAt_uchar4(gIn, x1, y2)) * gCoeffs[11]
               + convert_float4(rsGetElementAt_uchar4(gIn, x2, y2)) * gCoeffs[12]
               + convert_float4(rsGetElementAt_uchar4(gIn, x3, y2)) * gCoeffs[13]
               + convert_float4(rsGetElementAt_uchar4(gIn, x4, y2)) * gCoeffs[14];

     float4 p3 = convert_float4(rsGetElementAt_uchar4(gIn, x0, y3)) * gCoeffs[15]
               + convert_float4(rsGetElementAt_uchar4(gIn, x1, y3)) * gCoeffs[16]
               + convert_float4(rsGetElementAt_uchar4(gIn, x2, y3)) * gCoeffs[17]
               + convert_float4(rsGetElementAt_uchar4(gIn, x3, y3)) * gCoeffs[18]
               + convert_float4(rsGetElementAt_uchar4(gIn, x4, y3)) * gCoeffs[19];

     float4 p4 = convert_float4(rsGetElementAt_uchar4(gIn, x0, y4)) * gCoeffs[20]
               + convert_float4(rsGetElementAt_uchar4(gIn, x1, y4)) * gCoeffs[21]
               + convert_float4(rsGetElementAt_uchar4(gIn, x2, y4)) * gCoeffs[22]
               + convert_float4(rsGetElementAt_uchar4(gIn, x3, y4)) * gCoeffs[23]
               + convert_float4(rsGetElementAt_uchar4(gIn, x4, y4)) * gCoeffs[24];

     p0 = clamp(p0 + p1 + p2 + p3 + p4, 0.f, 255.f);
     return convert_uchar4(p0);
 }

 uchar3 __attribute__((kernel)) convolve_U3(uint32_t x, uint32_t y) {
     uint32_t x0 = max((int32_t)x-2, 0);
     uint32_t x1 = max((int32_t)x-1, 0);
     uint32_t x2 = x;
     uint32_t x3 = min((int32_t)x+1, gWidth-1);
     uint32_t x4 = min((int32_t)x+2, gWidth-1);

     uint32_t y0 = max((int32_t)y-2, 0);
     uint32_t y1 = max((int32_t)y-1, 0);
     uint32_t y2 = y;
     uint32_t y3 = min((int32_t)y+1, gHeight-1);
     uint32_t y4 = min((int32_t)y+2, gHeight-1);

     float3 p0 = convert_float3(rsGetElementAt_uchar3(gIn, x0, y0)) * gCoeffs[0]
               + convert_float3(rsGetElementAt_uchar3(gIn, x1, y0)) * gCoeffs[1]
               + convert_float3(rsGetElementAt_uchar3(gIn, x2, y0)) * gCoeffs[2]
               + convert_float3(rsGetElementAt_uchar3(gIn, x3, y0)) * gCoeffs[3]
               + convert_float3(rsGetElementAt_uchar3(gIn, x4, y0)) * gCoeffs[4];

     float3 p1 = convert_float3(rsGetElementAt_uchar3(gIn, x0, y1)) * gCoeffs[5]
               + convert_float3(rsGetElementAt_uchar3(gIn, x1, y1)) * gCoeffs[6]
               + convert_float3(rsGetElementAt_uchar3(gIn, x2, y1)) * gCoeffs[7]
               + convert_float3(rsGetElementAt_uchar3(gIn, x3, y1)) * gCoeffs[8]
               + convert_float3(rsGetElementAt_uchar3(gIn, x4, y1)) * gCoeffs[9];

     float3 p2 = convert_float3(rsGetElementAt_uchar3(gIn, x0, y2)) * gCoeffs[10]
               + convert_float3(rsGetElementAt_uchar3(gIn, x1, y2)) * gCoeffs[11]
               + convert_float3(rsGetElementAt_uchar3(gIn, x2, y2)) * gCoeffs[12]
               + convert_float3(rsGetElementAt_uchar3(gIn, x3, y2)) * gCoeffs[13]
               + convert_float3(rsGetElementAt_uchar3(gIn, x4, y2)) * gCoeffs[14];

     float3 p3 = convert_float3(rsGetElementAt_uchar3(gIn, x0, y3)) * gCoeffs[15]
               + convert_float3(rsGetElementAt_uchar3(gIn, x1, y3)) * gCoeffs[16]
               + convert_float3(rsGetElementAt_uchar3(gIn, x2, y3)) * gCoeffs[17]
               + convert_float3(rsGetElementAt_uchar3(gIn, x3, y3)) * gCoeffs[18]
               + convert_float3(rsGetElementAt_uchar3(gIn, x4, y3)) * gCoeffs[19];

     float3 p4 = convert_float3(rsGetElementAt_uchar3(gIn, x0, y4)) * gCoeffs[20]
               + convert_float3(rsGetElementAt_uchar3(gIn, x1, y4)) * gCoeffs[21]
               + convert_float3(rsGetElementAt_uchar3(gIn, x2, y4)) * gCoeffs[22]
               + convert_float3(rsGetElementAt_uchar3(gIn, x3, y4)) * gCoeffs[23]
               + convert_float3(rsGetElementAt_uchar3(gIn, x4, y4)) * gCoeffs[24];

     p0 = clamp(p0 + p1 + p2 + p3 + p4, 0.f, 255.f);
     return convert_uchar3(p0);
 }

 uchar2 __attribute__((kernel)) convolve_U2(uint32_t x, uint32_t y) {
     uint32_t x0 = max((int32_t)x-2, 0);
     uint32_t x1 = max((int32_t)x-1, 0);
     uint32_t x2 = x;
     uint32_t x3 = min((int32_t)x+1, gWidth-1);
     uint32_t x4 = min((int32_t)x+2, gWidth-1);

     uint32_t y0 = max((int32_t)y-2, 0);
     uint32_t y1 = max((int32_t)y-1, 0);
     uint32_t y2 = y;
     uint32_t y3 = min((int32_t)y+1, gHeight-1);
     uint32_t y4 = min((int32_t)y+2, gHeight-1);

     float2 p0 = convert_float2(rsGetElementAt_uchar2(gIn, x0, y0)) * gCoeffs[0]
               + convert_float2(rsGetElementAt_uchar2(gIn, x1, y0)) * gCoeffs[1]
               + convert_float2(rsGetElementAt_uchar2(gIn, x2, y0)) * gCoeffs[2]
               + convert_float2(rsGetElementAt_uchar2(gIn, x3, y0)) * gCoeffs[3]
               + convert_float2(rsGetElementAt_uchar2(gIn, x4, y0)) * gCoeffs[4];

     float2 p1 = convert_float2(rsGetElementAt_uchar2(gIn, x0, y1)) * gCoeffs[5]
               + convert_float2(rsGetElementAt_uchar2(gIn, x1, y1)) * gCoeffs[6]
               + convert_float2(rsGetElementAt_uchar2(gIn, x2, y1)) * gCoeffs[7]
               + convert_float2(rsGetElementAt_uchar2(gIn, x3, y1)) * gCoeffs[8]
               + convert_float2(rsGetElementAt_uchar2(gIn, x4, y1)) * gCoeffs[9];

     float2 p2 = convert_float2(rsGetElementAt_uchar2(gIn, x0, y2)) * gCoeffs[10]
               + convert_float2(rsGetElementAt_uchar2(gIn, x1, y2)) * gCoeffs[11]
               + convert_float2(rsGetElementAt_uchar2(gIn, x2, y2)) * gCoeffs[12]
               + convert_float2(rsGetElementAt_uchar2(gIn, x3, y2)) * gCoeffs[13]
               + convert_float2(rsGetElementAt_uchar2(gIn, x4, y2)) * gCoeffs[14];

     float2 p3 = convert_float2(rsGetElementAt_uchar2(gIn, x0, y3)) * gCoeffs[15]
               + convert_float2(rsGetElementAt_uchar2(gIn, x1, y3)) * gCoeffs[16]
               + convert_float2(rsGetElementAt_uchar2(gIn, x2, y3)) * gCoeffs[17]
               + convert_float2(rsGetElementAt_uchar2(gIn, x3, y3)) * gCoeffs[18]
               + convert_float2(rsGetElementAt_uchar2(gIn, x4, y3)) * gCoeffs[19];

     float2 p4 = convert_float2(rsGetElementAt_uchar2(gIn, x0, y4)) * gCoeffs[20]
               + convert_float2(rsGetElementAt_uchar2(gIn, x1, y4)) * gCoeffs[21]
               + convert_float2(rsGetElementAt_uchar2(gIn, x2, y4)) * gCoeffs[22]
               + convert_float2(rsGetElementAt_uchar2(gIn, x3, y4)) * gCoeffs[23]
               + convert_float2(rsGetElementAt_uchar2(gIn, x4, y4)) * gCoeffs[24];

     p0 = clamp(p0 + p1 + p2 + p3 + p4, 0.f, 255.f);
     return convert_uchar2(p0);
 }

 uchar __attribute__((kernel)) convolve_U1(uint32_t x, uint32_t y) {
     uint32_t x0 = max((int32_t)x-2, 0);
     uint32_t x1 = max((int32_t)x-1, 0);
     uint32_t x2 = x;
     uint32_t x3 = min((int32_t)x+1, gWidth-1);
     uint32_t x4 = min((int32_t)x+2, gWidth-1);

     uint32_t y0 = max((int32_t)y-2, 0);
     uint32_t y1 = max((int32_t)y-1, 0);
     uint32_t y2 = y;
     uint32_t y3 = min((int32_t)y+1, gHeight-1);
     uint32_t y4 = min((int32_t)y+2, gHeight-1);

     float p0 = (float)(rsGetElementAt_uchar(gIn, x0, y0)) * gCoeffs[0]
              + (float)(rsGetElementAt_uchar(gIn, x1, y0)) * gCoeffs[1]
              + (float)(rsGetElementAt_uchar(gIn, x2, y0)) * gCoeffs[2]
              + (float)(rsGetElementAt_uchar(gIn, x3, y0)) * gCoeffs[3]
              + (float)(rsGetElementAt_uchar(gIn, x4, y0)) * gCoeffs[4];

     float p1 = (float)(rsGetElementAt_uchar(gIn, x0, y1)) * gCoeffs[5]
              + (float)(rsGetElementAt_uchar(gIn, x1, y1)) * gCoeffs[6]
              + (float)(rsGetElementAt_uchar(gIn, x2, y1)) * gCoeffs[7]
              + (float)(rsGetElementAt_uchar(gIn, x3, y1)) * gCoeffs[8]
              + (float)(rsGetElementAt_uchar(gIn, x4, y1)) * gCoeffs[9];

     float p2 = (float)(rsGetElementAt_uchar(gIn, x0, y2)) * gCoeffs[10]
              + (float)(rsGetElementAt_uchar(gIn, x1, y2)) * gCoeffs[11]
              + (float)(rsGetElementAt_uchar(gIn, x2, y2)) * gCoeffs[12]
              + (float)(rsGetElementAt_uchar(gIn, x3, y2)) * gCoeffs[13]
              + (float)(rsGetElementAt_uchar(gIn, x4, y2)) * gCoeffs[14];

     float p3 = (float)(rsGetElementAt_uchar(gIn, x0, y3)) * gCoeffs[15]
              + (float)(rsGetElementAt_uchar(gIn, x1, y3)) * gCoeffs[16]
              + (float)(rsGetElementAt_uchar(gIn, x2, y3)) * gCoeffs[17]
              + (float)(rsGetElementAt_uchar(gIn, x3, y3)) * gCoeffs[18]
              + (float)(rsGetElementAt_uchar(gIn, x4, y3)) * gCoeffs[19];

     float p4 = (float)(rsGetElementAt_uchar(gIn, x0, y4)) * gCoeffs[20]
              + (float)(rsGetElementAt_uchar(gIn, x1, y4)) * gCoeffs[21]
              + (float)(rsGetElementAt_uchar(gIn, x2, y4)) * gCoeffs[22]
              + (float)(rsGetElementAt_uchar(gIn, x3, y4)) * gCoeffs[23]
              + (float)(rsGetElementAt_uchar(gIn, x4, y4)) * gCoeffs[24];

     return clamp(p0 + p1 + p2 + p3 + p4, 0.f, 255.f);
 }

 float4 __attribute__((kernel)) convolve_F4(uint32_t x, uint32_t y) {
     uint32_t x0 = max((int32_t)x-2, 0);
     uint32_t x1 = max((int32_t)x-1, 0);
     uint32_t x2 = x;
     uint32_t x3 = min((int32_t)x+1, gWidth-1);
     uint32_t x4 = min((int32_t)x+2, gWidth-1);

     uint32_t y0 = max((int32_t)y-2, 0);
     uint32_t y1 = max((int32_t)y-1, 0);
     uint32_t y2 = y;
     uint32_t y3 = min((int32_t)y+1, gHeight-1);
     uint32_t y4 = min((int32_t)y+2, gHeight-1);

     float4 p0 = rsGetElementAt_float4(gIn, x0, y0) * gCoeffs[0]
               + rsGetElementAt_float4(gIn, x1, y0) * gCoeffs[1]
               + rsGetElementAt_float4(gIn, x2, y0) * gCoeffs[2]
               + rsGetElementAt_float4(gIn, x3, y0) * gCoeffs[3]
               + rsGetElementAt_float4(gIn, x4, y0) * gCoeffs[4];

     float4 p1 = rsGetElementAt_float4(gIn, x0, y1) * gCoeffs[5]
               + rsGetElementAt_float4(gIn, x1, y1) * gCoeffs[6]
               + rsGetElementAt_float4(gIn, x2, y1) * gCoeffs[7]
               + rsGetElementAt_float4(gIn, x3, y1) * gCoeffs[8]
               + rsGetElementAt_float4(gIn, x4, y1) * gCoeffs[9];

     float4 p2 = rsGetElementAt_float4(gIn, x0, y2) * gCoeffs[10]
               + rsGetElementAt_float4(gIn, x1, y2) * gCoeffs[11]
               + rsGetElementAt_float4(gIn, x2, y2) * gCoeffs[12]
               + rsGetElementAt_float4(gIn, x3, y2) * gCoeffs[13]
               + rsGetElementAt_float4(gIn, x4, y2) * gCoeffs[14];

     float4 p3 = rsGetElementAt_float4(gIn, x0, y3) * gCoeffs[15]
               + rsGetElementAt_float4(gIn, x1, y3) * gCoeffs[16]
               + rsGetElementAt_float4(gIn, x2, y3) * gCoeffs[17]
               + rsGetElementAt_float4(gIn, x3, y3) * gCoeffs[18]
               + rsGetElementAt_float4(gIn, x4, y3) * gCoeffs[19];

     float4 p4 = rsGetElementAt_float4(gIn, x0, y4) * gCoeffs[20]
               + rsGetElementAt_float4(gIn, x1, y4) * gCoeffs[21]
               + rsGetElementAt_float4(gIn, x2, y4) * gCoeffs[22]
               + rsGetElementAt_float4(gIn, x3, y4) * gCoeffs[23]
               + rsGetElementAt_float4(gIn, x4, y4) * gCoeffs[24];

     return p0 + p1 + p2 + p3 + p4;
 }

 float3 __attribute__((kernel)) convolve_F3(uint32_t x, uint32_t y) {
     uint32_t x0 = max((int32_t)x-2, 0);
     uint32_t x1 = max((int32_t)x-1, 0);
     uint32_t x2 = x;
     uint32_t x3 = min((int32_t)x+1, gWidth-1);
     uint32_t x4 = min((int32_t)x+2, gWidth-1);

     uint32_t y0 = max((int32_t)y-2, 0);
     uint32_t y1 = max((int32_t)y-1, 0);
     uint32_t y2 = y;
     uint32_t y3 = min((int32_t)y+1, gHeight-1);
     uint32_t y4 = min((int32_t)y+2, gHeight-1);

     float3 p0 = rsGetElementAt_float3(gIn, x0, y0) * gCoeffs[0]
               + rsGetElementAt_float3(gIn, x1, y0) * gCoeffs[1]
               + rsGetElementAt_float3(gIn, x2, y0) * gCoeffs[2]
               + rsGetElementAt_float3(gIn, x3, y0) * gCoeffs[3]
               + rsGetElementAt_float3(gIn, x4, y0) * gCoeffs[4];

     float3 p1 = rsGetElementAt_float3(gIn, x0, y1) * gCoeffs[5]
               + rsGetElementAt_float3(gIn, x1, y1) * gCoeffs[6]
               + rsGetElementAt_float3(gIn, x2, y1) * gCoeffs[7]
               + rsGetElementAt_float3(gIn, x3, y1) * gCoeffs[8]
               + rsGetElementAt_float3(gIn, x4, y1) * gCoeffs[9];

     float3 p2 = rsGetElementAt_float3(gIn, x0, y2) * gCoeffs[10]
               + rsGetElementAt_float3(gIn, x1, y2) * gCoeffs[11]
               + rsGetElementAt_float3(gIn, x2, y2) * gCoeffs[12]
               + rsGetElementAt_float3(gIn, x3, y2) * gCoeffs[13]
               + rsGetElementAt_float3(gIn, x4, y2) * gCoeffs[14];

     float3 p3 = rsGetElementAt_float3(gIn, x0, y3) * gCoeffs[15]
               + rsGetElementAt_float3(gIn, x1, y3) * gCoeffs[16]
               + rsGetElementAt_float3(gIn, x2, y3) * gCoeffs[17]
               + rsGetElementAt_float3(gIn, x3, y3) * gCoeffs[18]
               + rsGetElementAt_float3(gIn, x4, y3) * gCoeffs[19];

     float3 p4 = rsGetElementAt_float3(gIn, x0, y4) * gCoeffs[20]
               + rsGetElementAt_float3(gIn, x1, y4) * gCoeffs[21]
               + rsGetElementAt_float3(gIn, x2, y4) * gCoeffs[22]
               + rsGetElementAt_float3(gIn, x3, y4) * gCoeffs[23]
               + rsGetElementAt_float3(gIn, x4, y4) * gCoeffs[24];

     return p0 + p1 + p2 + p3 + p4;
 }

 float2 __attribute__((kernel)) convolve_F2(uint32_t x, uint32_t y) {
     uint32_t x0 = max((int32_t)x-2, 0);
     uint32_t x1 = max((int32_t)x-1, 0);
     uint32_t x2 = x;
     uint32_t x3 = min((int32_t)x+1, gWidth-1);
     uint32_t x4 = min((int32_t)x+2, gWidth-1);

     uint32_t y0 = max((int32_t)y-2, 0);
     uint32_t y1 = max((int32_t)y-1, 0);
     uint32_t y2 = y;
     uint32_t y3 = min((int32_t)y+1, gHeight-1);
     uint32_t y4 = min((int32_t)y+2, gHeight-1);

     float2 p0 = rsGetElementAt_float2(gIn, x0, y0) * gCoeffs[0]
               + rsGetElementAt_float2(gIn, x1, y0) * gCoeffs[1]
               + rsGetElementAt_float2(gIn, x2, y0) * gCoeffs[2]
               + rsGetElementAt_float2(gIn, x3, y0) * gCoeffs[3]
               + rsGetElementAt_float2(gIn, x4, y0) * gCoeffs[4];

     float2 p1 = rsGetElementAt_float2(gIn, x0, y1) * gCoeffs[5]
               + rsGetElementAt_float2(gIn, x1, y1) * gCoeffs[6]
               + rsGetElementAt_float2(gIn, x2, y1) * gCoeffs[7]
               + rsGetElementAt_float2(gIn, x3, y1) * gCoeffs[8]
               + rsGetElementAt_float2(gIn, x4, y1) * gCoeffs[9];

     float2 p2 = rsGetElementAt_float2(gIn, x0, y2) * gCoeffs[10]
               + rsGetElementAt_float2(gIn, x1, y2) * gCoeffs[11]
               + rsGetElementAt_float2(gIn, x2, y2) * gCoeffs[12]
               + rsGetElementAt_float2(gIn, x3, y2) * gCoeffs[13]
               + rsGetElementAt_float2(gIn, x4, y2) * gCoeffs[14];

     float2 p3 = rsGetElementAt_float2(gIn, x0, y3) * gCoeffs[15]
               + rsGetElementAt_float2(gIn, x1, y3) * gCoeffs[16]
               + rsGetElementAt_float2(gIn, x2, y3) * gCoeffs[17]
               + rsGetElementAt_float2(gIn, x3, y3) * gCoeffs[18]
               + rsGetElementAt_float2(gIn, x4, y3) * gCoeffs[19];

     float2 p4 = rsGetElementAt_float2(gIn, x0, y4) * gCoeffs[20]
               + rsGetElementAt_float2(gIn, x1, y4) * gCoeffs[21]
               + rsGetElementAt_float2(gIn, x2, y4) * gCoeffs[22]
               + rsGetElementAt_float2(gIn, x3, y4) * gCoeffs[23]
               + rsGetElementAt_float2(gIn, x4, y4) * gCoeffs[24];

     return p0 + p1 + p2 + p3 + p4;
 }

 float __attribute__((kernel)) convolve_F1(uint32_t x, uint32_t y) {
     uint32_t x0 = max((int32_t)x-2, 0);
     uint32_t x1 = max((int32_t)x-1, 0);
     uint32_t x2 = x;
     uint32_t x3 = min((int32_t)x+1, gWidth-1);
     uint32_t x4 = min((int32_t)x+2, gWidth-1);

     uint32_t y0 = max((int32_t)y-2, 0);
     uint32_t y1 = max((int32_t)y-1, 0);
     uint32_t y2 = y;
     uint32_t y3 = min((int32_t)y+1, gHeight-1);
     uint32_t y4 = min((int32_t)y+2, gHeight-1);

     float p0 = rsGetElementAt_float(gIn, x0, y0) * gCoeffs[0]
              + rsGetElementAt_float(gIn, x1, y0) * gCoeffs[1]
              + rsGetElementAt_float(gIn, x2, y0) * gCoeffs[2]
              + rsGetElementAt_float(gIn, x3, y0) * gCoeffs[3]
              + rsGetElementAt_float(gIn, x4, y0) * gCoeffs[4];

     float p1 = rsGetElementAt_float(gIn, x0, y1) * gCoeffs[5]
              + rsGetElementAt_float(gIn, x1, y1) * gCoeffs[6]
              + rsGetElementAt_float(gIn, x2, y1) * gCoeffs[7]
              + rsGetElementAt_float(gIn, x3, y1) * gCoeffs[8]
              + rsGetElementAt_float(gIn, x4, y1) * gCoeffs[9];

     float p2 = rsGetElementAt_float(gIn, x0, y2) * gCoeffs[10]
              + rsGetElementAt_float(gIn, x1, y2) * gCoeffs[11]
              + rsGetElementAt_float(gIn, x2, y2) * gCoeffs[12]
              + rsGetElementAt_float(gIn, x3, y2) * gCoeffs[13]
              + rsGetElementAt_float(gIn, x4, y2) * gCoeffs[14];

     float p3 = rsGetElementAt_float(gIn, x0, y3) * gCoeffs[15]
              + rsGetElementAt_float(gIn, x1, y3) * gCoeffs[16]
              + rsGetElementAt_float(gIn, x2, y3) * gCoeffs[17]
              + rsGetElementAt_float(gIn, x3, y3) * gCoeffs[18]
              + rsGetElementAt_float(gIn, x4, y3) * gCoeffs[19];

     float p4 = rsGetElementAt_float(gIn, x0, y4) * gCoeffs[20]
              + rsGetElementAt_float(gIn, x1, y4) * gCoeffs[21]
              + rsGetElementAt_float(gIn, x2, y4) * gCoeffs[22]
              + rsGetElementAt_float(gIn, x3, y4) * gCoeffs[23]
              + rsGetElementAt_float(gIn, x4, y4) * gCoeffs[24];

     return p0 + p1 + p2 + p3 + p4;
 }
	/*
	* Copyright (C) 2013 The Android Open Source Project
	*
	* Licensed under the Apache License, Version 2.0 (the "License");
	* you may not use this file except in compliance with the License.
	* You may obtain a copy of the License at
	*
	* http://www.apache.org/licenses/LICENSE-2.0
	*
	* Unless required by applicable law or agreed to in writing, software
	* distributed under the License is distributed on an "AS IS" BASIS,
	* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
	* See the License for the specific language governing permissions and
	* limitations under the License.
	*/

	#include "shared.rsh"


	int32_t gWidth;
	int32_t gHeight;
	rs_allocation gIn;

	float gCoeffs[25];

	uchar4 __attribute__((kernel)) convolve_U4(uint32_t x, uint32_t y) {
	uint32_t x0 = max((int32_t)x-2, 0);
	uint32_t x1 = max((int32_t)x-1, 0);
	uint32_t x2 = x;
	uint32_t x3 = min((int32_t)x+1, gWidth-1);
	uint32_t x4 = min((int32_t)x+2, gWidth-1);

	uint32_t y0 = max((int32_t)y-2, 0);
	uint32_t y1 = max((int32_t)y-1, 0);
	uint32_t y2 = y;
	uint32_t y3 = min((int32_t)y+1, gHeight-1);
	uint32_t y4 = min((int32_t)y+2, gHeight-1);

	float4 p0 = convert_float4(rsGetElementAt_uchar4(gIn, x0, y0)) * gCoeffs[0]
	+ convert_float4(rsGetElementAt_uchar4(gIn, x1, y0)) * gCoeffs[1]
	+ convert_float4(rsGetElementAt_uchar4(gIn, x2, y0)) * gCoeffs[2]
	+ convert_float4(rsGetElementAt_uchar4(gIn, x3, y0)) * gCoeffs[3]
	+ convert_float4(rsGetElementAt_uchar4(gIn, x4, y0)) * gCoeffs[4];

	float4 p1 = convert_float4(rsGetElementAt_uchar4(gIn, x0, y1)) * gCoeffs[5]
	+ convert_float4(rsGetElementAt_uchar4(gIn, x1, y1)) * gCoeffs[6]
	+ convert_float4(rsGetElementAt_uchar4(gIn, x2, y1)) * gCoeffs[7]
	+ convert_float4(rsGetElementAt_uchar4(gIn, x3, y1)) * gCoeffs[8]
	+ convert_float4(rsGetElementAt_uchar4(gIn, x4, y1)) * gCoeffs[9];

	float4 p2 = convert_float4(rsGetElementAt_uchar4(gIn, x0, y2)) * gCoeffs[10]
	+ convert_float4(rsGetElementAt_uchar4(gIn, x1, y2)) * gCoeffs[11]
	+ convert_float4(rsGetElementAt_uchar4(gIn, x2, y2)) * gCoeffs[12]
	+ convert_float4(rsGetElementAt_uchar4(gIn, x3, y2)) * gCoeffs[13]
	+ convert_float4(rsGetElementAt_uchar4(gIn, x4, y2)) * gCoeffs[14];

	float4 p3 = convert_float4(rsGetElementAt_uchar4(gIn, x0, y3)) * gCoeffs[15]
	+ convert_float4(rsGetElementAt_uchar4(gIn, x1, y3)) * gCoeffs[16]
	+ convert_float4(rsGetElementAt_uchar4(gIn, x2, y3)) * gCoeffs[17]
	+ convert_float4(rsGetElementAt_uchar4(gIn, x3, y3)) * gCoeffs[18]
	+ convert_float4(rsGetElementAt_uchar4(gIn, x4, y3)) * gCoeffs[19];

	float4 p4 = convert_float4(rsGetElementAt_uchar4(gIn, x0, y4)) * gCoeffs[20]
	+ convert_float4(rsGetElementAt_uchar4(gIn, x1, y4)) * gCoeffs[21]
	+ convert_float4(rsGetElementAt_uchar4(gIn, x2, y4)) * gCoeffs[22]
	+ convert_float4(rsGetElementAt_uchar4(gIn, x3, y4)) * gCoeffs[23]
	+ convert_float4(rsGetElementAt_uchar4(gIn, x4, y4)) * gCoeffs[24];

	p0 = clamp(p0 + p1 + p2 + p3 + p4, 0.f, 255.f);
	return convert_uchar4(p0);
	}

	uchar3 __attribute__((kernel)) convolve_U3(uint32_t x, uint32_t y) {
	uint32_t x0 = max((int32_t)x-2, 0);
	uint32_t x1 = max((int32_t)x-1, 0);
	uint32_t x2 = x;
	uint32_t x3 = min((int32_t)x+1, gWidth-1);
	uint32_t x4 = min((int32_t)x+2, gWidth-1);

	uint32_t y0 = max((int32_t)y-2, 0);
	uint32_t y1 = max((int32_t)y-1, 0);
	uint32_t y2 = y;
	uint32_t y3 = min((int32_t)y+1, gHeight-1);
	uint32_t y4 = min((int32_t)y+2, gHeight-1);

	float3 p0 = convert_float3(rsGetElementAt_uchar3(gIn, x0, y0)) * gCoeffs[0]
	+ convert_float3(rsGetElementAt_uchar3(gIn, x1, y0)) * gCoeffs[1]
	+ convert_float3(rsGetElementAt_uchar3(gIn, x2, y0)) * gCoeffs[2]
	+ convert_float3(rsGetElementAt_uchar3(gIn, x3, y0)) * gCoeffs[3]
	+ convert_float3(rsGetElementAt_uchar3(gIn, x4, y0)) * gCoeffs[4];

	float3 p1 = convert_float3(rsGetElementAt_uchar3(gIn, x0, y1)) * gCoeffs[5]
	+ convert_float3(rsGetElementAt_uchar3(gIn, x1, y1)) * gCoeffs[6]
	+ convert_float3(rsGetElementAt_uchar3(gIn, x2, y1)) * gCoeffs[7]
	+ convert_float3(rsGetElementAt_uchar3(gIn, x3, y1)) * gCoeffs[8]
	+ convert_float3(rsGetElementAt_uchar3(gIn, x4, y1)) * gCoeffs[9];

	float3 p2 = convert_float3(rsGetElementAt_uchar3(gIn, x0, y2)) * gCoeffs[10]
	+ convert_float3(rsGetElementAt_uchar3(gIn, x1, y2)) * gCoeffs[11]
	+ convert_float3(rsGetElementAt_uchar3(gIn, x2, y2)) * gCoeffs[12]
	+ convert_float3(rsGetElementAt_uchar3(gIn, x3, y2)) * gCoeffs[13]
	+ convert_float3(rsGetElementAt_uchar3(gIn, x4, y2)) * gCoeffs[14];

	float3 p3 = convert_float3(rsGetElementAt_uchar3(gIn, x0, y3)) * gCoeffs[15]
	+ convert_float3(rsGetElementAt_uchar3(gIn, x1, y3)) * gCoeffs[16]
	+ convert_float3(rsGetElementAt_uchar3(gIn, x2, y3)) * gCoeffs[17]
	+ convert_float3(rsGetElementAt_uchar3(gIn, x3, y3)) * gCoeffs[18]
	+ convert_float3(rsGetElementAt_uchar3(gIn, x4, y3)) * gCoeffs[19];

	float3 p4 = convert_float3(rsGetElementAt_uchar3(gIn, x0, y4)) * gCoeffs[20]
	+ convert_float3(rsGetElementAt_uchar3(gIn, x1, y4)) * gCoeffs[21]
	+ convert_float3(rsGetElementAt_uchar3(gIn, x2, y4)) * gCoeffs[22]
	+ convert_float3(rsGetElementAt_uchar3(gIn, x3, y4)) * gCoeffs[23]
	+ convert_float3(rsGetElementAt_uchar3(gIn, x4, y4)) * gCoeffs[24];

	p0 = clamp(p0 + p1 + p2 + p3 + p4, 0.f, 255.f);
	return convert_uchar3(p0);
	}

	uchar2 __attribute__((kernel)) convolve_U2(uint32_t x, uint32_t y) {
	uint32_t x0 = max((int32_t)x-2, 0);
	uint32_t x1 = max((int32_t)x-1, 0);
	uint32_t x2 = x;
	uint32_t x3 = min((int32_t)x+1, gWidth-1);
	uint32_t x4 = min((int32_t)x+2, gWidth-1);

	uint32_t y0 = max((int32_t)y-2, 0);
	uint32_t y1 = max((int32_t)y-1, 0);
	uint32_t y2 = y;
	uint32_t y3 = min((int32_t)y+1, gHeight-1);
	uint32_t y4 = min((int32_t)y+2, gHeight-1);

	float2 p0 = convert_float2(rsGetElementAt_uchar2(gIn, x0, y0)) * gCoeffs[0]
	+ convert_float2(rsGetElementAt_uchar2(gIn, x1, y0)) * gCoeffs[1]
	+ convert_float2(rsGetElementAt_uchar2(gIn, x2, y0)) * gCoeffs[2]
	+ convert_float2(rsGetElementAt_uchar2(gIn, x3, y0)) * gCoeffs[3]
	+ convert_float2(rsGetElementAt_uchar2(gIn, x4, y0)) * gCoeffs[4];

	float2 p1 = convert_float2(rsGetElementAt_uchar2(gIn, x0, y1)) * gCoeffs[5]
	+ convert_float2(rsGetElementAt_uchar2(gIn, x1, y1)) * gCoeffs[6]
	+ convert_float2(rsGetElementAt_uchar2(gIn, x2, y1)) * gCoeffs[7]
	+ convert_float2(rsGetElementAt_uchar2(gIn, x3, y1)) * gCoeffs[8]
	+ convert_float2(rsGetElementAt_uchar2(gIn, x4, y1)) * gCoeffs[9];

	float2 p2 = convert_float2(rsGetElementAt_uchar2(gIn, x0, y2)) * gCoeffs[10]
	+ convert_float2(rsGetElementAt_uchar2(gIn, x1, y2)) * gCoeffs[11]
	+ convert_float2(rsGetElementAt_uchar2(gIn, x2, y2)) * gCoeffs[12]
	+ convert_float2(rsGetElementAt_uchar2(gIn, x3, y2)) * gCoeffs[13]
	+ convert_float2(rsGetElementAt_uchar2(gIn, x4, y2)) * gCoeffs[14];

	float2 p3 = convert_float2(rsGetElementAt_uchar2(gIn, x0, y3)) * gCoeffs[15]
	+ convert_float2(rsGetElementAt_uchar2(gIn, x1, y3)) * gCoeffs[16]
	+ convert_float2(rsGetElementAt_uchar2(gIn, x2, y3)) * gCoeffs[17]
	+ convert_float2(rsGetElementAt_uchar2(gIn, x3, y3)) * gCoeffs[18]
	+ convert_float2(rsGetElementAt_uchar2(gIn, x4, y3)) * gCoeffs[19];

	float2 p4 = convert_float2(rsGetElementAt_uchar2(gIn, x0, y4)) * gCoeffs[20]
	+ convert_float2(rsGetElementAt_uchar2(gIn, x1, y4)) * gCoeffs[21]
	+ convert_float2(rsGetElementAt_uchar2(gIn, x2, y4)) * gCoeffs[22]
	+ convert_float2(rsGetElementAt_uchar2(gIn, x3, y4)) * gCoeffs[23]
	+ convert_float2(rsGetElementAt_uchar2(gIn, x4, y4)) * gCoeffs[24];

	p0 = clamp(p0 + p1 + p2 + p3 + p4, 0.f, 255.f);
	return convert_uchar2(p0);
	}

	uchar __attribute__((kernel)) convolve_U1(uint32_t x, uint32_t y) {
	uint32_t x0 = max((int32_t)x-2, 0);
	uint32_t x1 = max((int32_t)x-1, 0);
	uint32_t x2 = x;
	uint32_t x3 = min((int32_t)x+1, gWidth-1);
	uint32_t x4 = min((int32_t)x+2, gWidth-1);

	uint32_t y0 = max((int32_t)y-2, 0);
	uint32_t y1 = max((int32_t)y-1, 0);
	uint32_t y2 = y;
	uint32_t y3 = min((int32_t)y+1, gHeight-1);
	uint32_t y4 = min((int32_t)y+2, gHeight-1);

	float p0 = (float)(rsGetElementAt_uchar(gIn, x0, y0)) * gCoeffs[0]
	+ (float)(rsGetElementAt_uchar(gIn, x1, y0)) * gCoeffs[1]
	+ (float)(rsGetElementAt_uchar(gIn, x2, y0)) * gCoeffs[2]
	+ (float)(rsGetElementAt_uchar(gIn, x3, y0)) * gCoeffs[3]
	+ (float)(rsGetElementAt_uchar(gIn, x4, y0)) * gCoeffs[4];

	float p1 = (float)(rsGetElementAt_uchar(gIn, x0, y1)) * gCoeffs[5]
	+ (float)(rsGetElementAt_uchar(gIn, x1, y1)) * gCoeffs[6]
	+ (float)(rsGetElementAt_uchar(gIn, x2, y1)) * gCoeffs[7]
	+ (float)(rsGetElementAt_uchar(gIn, x3, y1)) * gCoeffs[8]
	+ (float)(rsGetElementAt_uchar(gIn, x4, y1)) * gCoeffs[9];

	float p2 = (float)(rsGetElementAt_uchar(gIn, x0, y2)) * gCoeffs[10]
	+ (float)(rsGetElementAt_uchar(gIn, x1, y2)) * gCoeffs[11]
	+ (float)(rsGetElementAt_uchar(gIn, x2, y2)) * gCoeffs[12]
	+ (float)(rsGetElementAt_uchar(gIn, x3, y2)) * gCoeffs[13]
	+ (float)(rsGetElementAt_uchar(gIn, x4, y2)) * gCoeffs[14];

	float p3 = (float)(rsGetElementAt_uchar(gIn, x0, y3)) * gCoeffs[15]
	+ (float)(rsGetElementAt_uchar(gIn, x1, y3)) * gCoeffs[16]
	+ (float)(rsGetElementAt_uchar(gIn, x2, y3)) * gCoeffs[17]
	+ (float)(rsGetElementAt_uchar(gIn, x3, y3)) * gCoeffs[18]
	+ (float)(rsGetElementAt_uchar(gIn, x4, y3)) * gCoeffs[19];

	float p4 = (float)(rsGetElementAt_uchar(gIn, x0, y4)) * gCoeffs[20]
	+ (float)(rsGetElementAt_uchar(gIn, x1, y4)) * gCoeffs[21]
	+ (float)(rsGetElementAt_uchar(gIn, x2, y4)) * gCoeffs[22]
	+ (float)(rsGetElementAt_uchar(gIn, x3, y4)) * gCoeffs[23]
	+ (float)(rsGetElementAt_uchar(gIn, x4, y4)) * gCoeffs[24];

	return clamp(p0 + p1 + p2 + p3 + p4, 0.f, 255.f);
	}

	float4 __attribute__((kernel)) convolve_F4(uint32_t x, uint32_t y) {
	uint32_t x0 = max((int32_t)x-2, 0);
	uint32_t x1 = max((int32_t)x-1, 0);
	uint32_t x2 = x;
	uint32_t x3 = min((int32_t)x+1, gWidth-1);
	uint32_t x4 = min((int32_t)x+2, gWidth-1);

	uint32_t y0 = max((int32_t)y-2, 0);
	uint32_t y1 = max((int32_t)y-1, 0);
	uint32_t y2 = y;
	uint32_t y3 = min((int32_t)y+1, gHeight-1);
	uint32_t y4 = min((int32_t)y+2, gHeight-1);

	float4 p0 = rsGetElementAt_float4(gIn, x0, y0) * gCoeffs[0]
	+ rsGetElementAt_float4(gIn, x1, y0) * gCoeffs[1]
	+ rsGetElementAt_float4(gIn, x2, y0) * gCoeffs[2]
	+ rsGetElementAt_float4(gIn, x3, y0) * gCoeffs[3]
	+ rsGetElementAt_float4(gIn, x4, y0) * gCoeffs[4];

	float4 p1 = rsGetElementAt_float4(gIn, x0, y1) * gCoeffs[5]
	+ rsGetElementAt_float4(gIn, x1, y1) * gCoeffs[6]
	+ rsGetElementAt_float4(gIn, x2, y1) * gCoeffs[7]
	+ rsGetElementAt_float4(gIn, x3, y1) * gCoeffs[8]
	+ rsGetElementAt_float4(gIn, x4, y1) * gCoeffs[9];

	float4 p2 = rsGetElementAt_float4(gIn, x0, y2) * gCoeffs[10]
	+ rsGetElementAt_float4(gIn, x1, y2) * gCoeffs[11]
	+ rsGetElementAt_float4(gIn, x2, y2) * gCoeffs[12]
	+ rsGetElementAt_float4(gIn, x3, y2) * gCoeffs[13]
	+ rsGetElementAt_float4(gIn, x4, y2) * gCoeffs[14];

	float4 p3 = rsGetElementAt_float4(gIn, x0, y3) * gCoeffs[15]
	+ rsGetElementAt_float4(gIn, x1, y3) * gCoeffs[16]
	+ rsGetElementAt_float4(gIn, x2, y3) * gCoeffs[17]
	+ rsGetElementAt_float4(gIn, x3, y3) * gCoeffs[18]
	+ rsGetElementAt_float4(gIn, x4, y3) * gCoeffs[19];

	float4 p4 = rsGetElementAt_float4(gIn, x0, y4) * gCoeffs[20]
	+ rsGetElementAt_float4(gIn, x1, y4) * gCoeffs[21]
	+ rsGetElementAt_float4(gIn, x2, y4) * gCoeffs[22]
	+ rsGetElementAt_float4(gIn, x3, y4) * gCoeffs[23]
	+ rsGetElementAt_float4(gIn, x4, y4) * gCoeffs[24];

	return p0 + p1 + p2 + p3 + p4;
	}

	float3 __attribute__((kernel)) convolve_F3(uint32_t x, uint32_t y) {
	uint32_t x0 = max((int32_t)x-2, 0);
	uint32_t x1 = max((int32_t)x-1, 0);
	uint32_t x2 = x;
	uint32_t x3 = min((int32_t)x+1, gWidth-1);
	uint32_t x4 = min((int32_t)x+2, gWidth-1);

	uint32_t y0 = max((int32_t)y-2, 0);
	uint32_t y1 = max((int32_t)y-1, 0);
	uint32_t y2 = y;
	uint32_t y3 = min((int32_t)y+1, gHeight-1);
	uint32_t y4 = min((int32_t)y+2, gHeight-1);

	float3 p0 = rsGetElementAt_float3(gIn, x0, y0) * gCoeffs[0]
	+ rsGetElementAt_float3(gIn, x1, y0) * gCoeffs[1]
	+ rsGetElementAt_float3(gIn, x2, y0) * gCoeffs[2]
	+ rsGetElementAt_float3(gIn, x3, y0) * gCoeffs[3]
	+ rsGetElementAt_float3(gIn, x4, y0) * gCoeffs[4];

	float3 p1 = rsGetElementAt_float3(gIn, x0, y1) * gCoeffs[5]
	+ rsGetElementAt_float3(gIn, x1, y1) * gCoeffs[6]
	+ rsGetElementAt_float3(gIn, x2, y1) * gCoeffs[7]
	+ rsGetElementAt_float3(gIn, x3, y1) * gCoeffs[8]
	+ rsGetElementAt_float3(gIn, x4, y1) * gCoeffs[9];

	float3 p2 = rsGetElementAt_float3(gIn, x0, y2) * gCoeffs[10]
	+ rsGetElementAt_float3(gIn, x1, y2) * gCoeffs[11]
	+ rsGetElementAt_float3(gIn, x2, y2) * gCoeffs[12]
	+ rsGetElementAt_float3(gIn, x3, y2) * gCoeffs[13]
	+ rsGetElementAt_float3(gIn, x4, y2) * gCoeffs[14];

	float3 p3 = rsGetElementAt_float3(gIn, x0, y3) * gCoeffs[15]
	+ rsGetElementAt_float3(gIn, x1, y3) * gCoeffs[16]
	+ rsGetElementAt_float3(gIn, x2, y3) * gCoeffs[17]
	+ rsGetElementAt_float3(gIn, x3, y3) * gCoeffs[18]
	+ rsGetElementAt_float3(gIn, x4, y3) * gCoeffs[19];

	float3 p4 = rsGetElementAt_float3(gIn, x0, y4) * gCoeffs[20]
	+ rsGetElementAt_float3(gIn, x1, y4) * gCoeffs[21]
	+ rsGetElementAt_float3(gIn, x2, y4) * gCoeffs[22]
	+ rsGetElementAt_float3(gIn, x3, y4) * gCoeffs[23]
	+ rsGetElementAt_float3(gIn, x4, y4) * gCoeffs[24];

	return p0 + p1 + p2 + p3 + p4;
	}

	float2 __attribute__((kernel)) convolve_F2(uint32_t x, uint32_t y) {
	uint32_t x0 = max((int32_t)x-2, 0);
	uint32_t x1 = max((int32_t)x-1, 0);
	uint32_t x2 = x;
	uint32_t x3 = min((int32_t)x+1, gWidth-1);
	uint32_t x4 = min((int32_t)x+2, gWidth-1);

	uint32_t y0 = max((int32_t)y-2, 0);
	uint32_t y1 = max((int32_t)y-1, 0);
	uint32_t y2 = y;
	uint32_t y3 = min((int32_t)y+1, gHeight-1);
	uint32_t y4 = min((int32_t)y+2, gHeight-1);

	float2 p0 = rsGetElementAt_float2(gIn, x0, y0) * gCoeffs[0]
	+ rsGetElementAt_float2(gIn, x1, y0) * gCoeffs[1]
	+ rsGetElementAt_float2(gIn, x2, y0) * gCoeffs[2]
	+ rsGetElementAt_float2(gIn, x3, y0) * gCoeffs[3]
	+ rsGetElementAt_float2(gIn, x4, y0) * gCoeffs[4];

	float2 p1 = rsGetElementAt_float2(gIn, x0, y1) * gCoeffs[5]
	+ rsGetElementAt_float2(gIn, x1, y1) * gCoeffs[6]
	+ rsGetElementAt_float2(gIn, x2, y1) * gCoeffs[7]
	+ rsGetElementAt_float2(gIn, x3, y1) * gCoeffs[8]
	+ rsGetElementAt_float2(gIn, x4, y1) * gCoeffs[9];

	float2 p2 = rsGetElementAt_float2(gIn, x0, y2) * gCoeffs[10]
	+ rsGetElementAt_float2(gIn, x1, y2) * gCoeffs[11]
	+ rsGetElementAt_float2(gIn, x2, y2) * gCoeffs[12]
	+ rsGetElementAt_float2(gIn, x3, y2) * gCoeffs[13]
	+ rsGetElementAt_float2(gIn, x4, y2) * gCoeffs[14];

	float2 p3 = rsGetElementAt_float2(gIn, x0, y3) * gCoeffs[15]
	+ rsGetElementAt_float2(gIn, x1, y3) * gCoeffs[16]
	+ rsGetElementAt_float2(gIn, x2, y3) * gCoeffs[17]
	+ rsGetElementAt_float2(gIn, x3, y3) * gCoeffs[18]
	+ rsGetElementAt_float2(gIn, x4, y3) * gCoeffs[19];

	float2 p4 = rsGetElementAt_float2(gIn, x0, y4) * gCoeffs[20]
	+ rsGetElementAt_float2(gIn, x1, y4) * gCoeffs[21]
	+ rsGetElementAt_float2(gIn, x2, y4) * gCoeffs[22]
	+ rsGetElementAt_float2(gIn, x3, y4) * gCoeffs[23]
	+ rsGetElementAt_float2(gIn, x4, y4) * gCoeffs[24];

	return p0 + p1 + p2 + p3 + p4;
	}

	float __attribute__((kernel)) convolve_F1(uint32_t x, uint32_t y) {
	uint32_t x0 = max((int32_t)x-2, 0);
	uint32_t x1 = max((int32_t)x-1, 0);
	uint32_t x2 = x;
	uint32_t x3 = min((int32_t)x+1, gWidth-1);
	uint32_t x4 = min((int32_t)x+2, gWidth-1);

	uint32_t y0 = max((int32_t)y-2, 0);
	uint32_t y1 = max((int32_t)y-1, 0);
	uint32_t y2 = y;
	uint32_t y3 = min((int32_t)y+1, gHeight-1);
	uint32_t y4 = min((int32_t)y+2, gHeight-1);

	float p0 = rsGetElementAt_float(gIn, x0, y0) * gCoeffs[0]
	+ rsGetElementAt_float(gIn, x1, y0) * gCoeffs[1]
	+ rsGetElementAt_float(gIn, x2, y0) * gCoeffs[2]
	+ rsGetElementAt_float(gIn, x3, y0) * gCoeffs[3]
	+ rsGetElementAt_float(gIn, x4, y0) * gCoeffs[4];

	float p1 = rsGetElementAt_float(gIn, x0, y1) * gCoeffs[5]
	+ rsGetElementAt_float(gIn, x1, y1) * gCoeffs[6]
	+ rsGetElementAt_float(gIn, x2, y1) * gCoeffs[7]
	+ rsGetElementAt_float(gIn, x3, y1) * gCoeffs[8]
	+ rsGetElementAt_float(gIn, x4, y1) * gCoeffs[9];

	float p2 = rsGetElementAt_float(gIn, x0, y2) * gCoeffs[10]
	+ rsGetElementAt_float(gIn, x1, y2) * gCoeffs[11]
	+ rsGetElementAt_float(gIn, x2, y2) * gCoeffs[12]
	+ rsGetElementAt_float(gIn, x3, y2) * gCoeffs[13]
	+ rsGetElementAt_float(gIn, x4, y2) * gCoeffs[14];

	float p3 = rsGetElementAt_float(gIn, x0, y3) * gCoeffs[15]
	+ rsGetElementAt_float(gIn, x1, y3) * gCoeffs[16]
	+ rsGetElementAt_float(gIn, x2, y3) * gCoeffs[17]
	+ rsGetElementAt_float(gIn, x3, y3) * gCoeffs[18]
	+ rsGetElementAt_float(gIn, x4, y3) * gCoeffs[19];

	float p4 = rsGetElementAt_float(gIn, x0, y4) * gCoeffs[20]
	+ rsGetElementAt_float(gIn, x1, y4) * gCoeffs[21]
	+ rsGetElementAt_float(gIn, x2, y4) * gCoeffs[22]
	+ rsGetElementAt_float(gIn, x3, y4) * gCoeffs[23]
	+ rsGetElementAt_float(gIn, x4, y4) * gCoeffs[24];

	return p0 + p1 + p2 + p3 + p4;
	}