Fixed OpenMP implementation on fast_demo.cc
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Emil Martinec
parent
a26284a52f
commit
173a09738b
@ -36,11 +36,12 @@ void RawImageSource::fast_demo() {
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float progress = 0.0;
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//allocate output arrays
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red = new unsigned short*[H];
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for (int i=0; i<H; i++) {
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red[i] = new unsigned short[W];
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}
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green = new unsigned short*[H];
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green = new unsigned short* [H];
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for (int i=0; i<H; i++) {
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green[i] = new unsigned short[W];
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}
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@ -48,26 +49,27 @@ void RawImageSource::fast_demo() {
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for (int i=0; i<H; i++) {
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blue[i] = new unsigned short[W];
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}
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#define bord 4
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int i, j, i1, j1, c, sum[6];
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//%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
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//first, interpolate borders using bilinear
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for (i=0; i<H; i++) {
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for (j=0; j<bord; j++) {//first few columns
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for (c=0; c<6; c++) sum[c]=0;
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for (i1=i-1; i1<i+2; i1++)
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for (j1=j-1; j1<j+2; j1++) {
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if (i1 > -1 && i1 < H && j1 > -1) {
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c = FC(i1,j1);
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for (int i=0; i<H; i++) {
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for (int j=0; j<bord; j++) {//first few columns
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unsigned int sum[6];
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for (int c=0; c<6; c++) sum[c]=0;
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for (int i1=i-1; i1<i+2; i1++)
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for (int j1=j-1; j1<j+2; j1++) {
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if ((i1 > -1) && (i1 < H) && (j1 > -1)) {
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int c = FC(i1,j1);
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sum[c] += ri->data[i1][j1];
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sum[c+3]++;
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}
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}
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c=FC(i,j);
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int c=FC(i,j);
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if (c==1) {
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red[i][j]=sum[0]/sum[3];
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green[i][j]=ri->data[i][j];
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@ -84,17 +86,18 @@ void RawImageSource::fast_demo() {
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}
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}//j
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for (j=W-bord; j<W; j++) {//last few columns
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for (c=0; c<6; c++) sum[c]=0;
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for (i1=i-1; i1<i+2; i1++)
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for (j1=j-1; j1<j+2; j1++) {
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if (i1 > -1 && i1 < H && j1 < W) {
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c = FC(i1,j1);
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for (int j=W-bord; j<W; j++) {//last few columns
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unsigned int sum[6];
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for (int c=0; c<6; c++) sum[c]=0;
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for (int i1=i-1; i1<i+2; i1++)
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for (int j1=j-1; j1<j+2; j1++) {
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if ((i1 > -1) && (i1 < H ) && (j1 < W)) {
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int c = FC(i1,j1);
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sum[c] += ri->data[i1][j1];
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sum[c+3]++;
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}
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}
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c=FC(i,j);
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int c=FC(i,j);
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if (c==1) {
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red[i][j]=sum[0]/sum[3];
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green[i][j]=ri->data[i][j];
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@ -114,18 +117,19 @@ void RawImageSource::fast_demo() {
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//%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
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for (j=bord; j<W-bord; j++) {
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for (i=0; i<bord; i++) {//first few rows
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for (c=0; c<6; c++) sum[c]=0;
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for (i1=i-1; i1<i+2; i1++)
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for (j1=j-1; j1<j+2; j1++) {
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if (j1 > -1 && j1 < W && i1 > -1) {
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c = FC(i1,j1);
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for (int j=bord; j<W-bord; j++) {
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for (int i=0; i<bord; i++) {//first few rows
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unsigned int sum[6];
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for (int c=0; c<6; c++) sum[c]=0;
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for (int i1=i-1; i1<i+2; i1++)
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for (int j1=j-1; j1<j+2; j1++) {
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if ((j1 > -1) && (j1 < W) && (i1 > -1)) {
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int c = FC(i1,j1);
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sum[c] += ri->data[i1][j1];
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sum[c+3]++;
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}
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}
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c=FC(i,j);
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int c=FC(i,j);
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if (c==1) {
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red[i][j]=sum[0]/sum[3];
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green[i][j]=ri->data[i][j];
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@ -142,17 +146,18 @@ void RawImageSource::fast_demo() {
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}
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}//i
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for (i=H-bord; i<H; i++) {//last few rows
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for (c=0; c<6; c++) sum[c]=0;
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for (i1=i-1; i1<i+2; i1++)
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for (j1=j-1; j1<j+2; j1++) {
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if (j1 > -1 && j1 < W && i1 < H) {
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c = FC(i1,j1);
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for (int i=H-bord; i<H; i++) {//last few rows
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unsigned int sum[6];
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for (int c=0; c<6; c++) sum[c]=0;
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for (int i1=i-1; i1<i+2; i1++)
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for (int j1=j-1; j1<j+2; j1++) {
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if ((j1 > -1) && (j1 < W) && (i1 < H)) {
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int c = FC(i1,j1);
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sum[c] += ri->data[i1][j1];
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sum[c+3]++;
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}
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}
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c=FC(i,j);
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int c=FC(i,j);
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if (c==1) {
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red[i][j]=sum[0]/sum[3];
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green[i][j]=ri->data[i][j];
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@ -173,27 +178,19 @@ void RawImageSource::fast_demo() {
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if(plistener) plistener->setProgress(0.05);
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//%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
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#pragma omp parallel private(i,j,c)
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{
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int rb;
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float * dirwt = new float [0x20000];
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float wt1, wt2, wt3, wt4;
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//set up directional weight function
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for (int i=0; i<0x10000; i++)
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dirwt[i] = 1.0/SQR(1.0+i);
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float * dirwt = new float [0x20000];
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#pragma omp for schedule(dynamic) nowait
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#pragma omp parallel
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{
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//set up directional weight function
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for (int i=0; i<0x10000; i++)
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dirwt[i] = 1.0/SQR(1.0+i);
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#pragma omp for schedule(dynamic) nowait
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#pragma omp for
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// interpolate G using gradient weights
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for (i=bord; i< H-bord; i++) {
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for (j=bord; j < W-bord; j++) {
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for (int i=bord; i< H-bord; i++) {
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for (int j=bord; j < W-bord; j++) {
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if (FC(i,j)==1) {
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green[i][j] = ri->data[i][j];
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@ -202,6 +199,7 @@ void RawImageSource::fast_demo() {
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} else {
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//compute directional weights using image gradients
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float wt1, wt2, wt3, wt4;
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wt1=dirwt[(abs(ri->data[i+1][j]-ri->data[i-1][j])+abs(ri->data[i][j]-ri->data[i-2][j])+abs(ri->data[i-1][j]-ri->data[i-3][j])) >>4];
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wt2=dirwt[(abs(ri->data[i-1][j]-ri->data[i+1][j])+abs(ri->data[i][j]-ri->data[i+2][j])+abs(ri->data[i+1][j]-ri->data[i+3][j])) >>4];
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wt3=dirwt[(abs(ri->data[i][j+1]-ri->data[i][j-1])+abs(ri->data[i][j]-ri->data[i][j-2])+abs(ri->data[i][j-1]-ri->data[i][j-3])) >>4];
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@ -214,20 +212,18 @@ void RawImageSource::fast_demo() {
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}
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}
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progress+=(double)0.33/(H);
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//progress+=(double)0.33/(H);
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//if(plistener) plistener->setProgress(progress);
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}
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if(plistener) plistener->setProgress(0.4);
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#pragma omp for schedule(dynamic) nowait
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for (i=bord; i< H-bord; i++) {
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for (j=bord+(FC(i,2)&1); j < W-bord; j+=2) {
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c=FC(i,j);
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#pragma omp for
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for (int i=bord; i< H-bord; i++) {
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for (int j=bord+(FC(i,2)&1), c=FC(i,j); j < W-bord; j+=2) {
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//interpolate B/R colors at R/B sites
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rb = CLIP((int)(green[i][j] - 0.25*((green[i-1][j-1]-ri->data[i-1][j-1])+(green[i-1][j+1]-ri->data[i-1][j+1])+ \
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unsigned int rb = CLIP((int)(green[i][j] - 0.25*((green[i-1][j-1]-ri->data[i-1][j-1])+(green[i-1][j+1]-ri->data[i-1][j+1])+ \
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(green[i+1][j+1]-ri->data[i+1][j+1])+(green[i+1][j-1]-ri->data[i+1][j-1]))));
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if (c==0) {//R site
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red[i][j] = ri->data[i][j];
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@ -237,35 +233,31 @@ void RawImageSource::fast_demo() {
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blue[i][j] = ri->data[i][j];
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}
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}
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progress+=(double)0.33/(H);
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//progress+=(double)0.33/(H);
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//if(plistener) plistener->setProgress(progress);
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}
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if(plistener) plistener->setProgress(0.7);
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#pragma omp barrier
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#pragma omp for schedule(dynamic) nowait
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// interpolate R/B using color differences
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for (i=bord; i< H-bord; i++) {
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for (j=bord+1-(FC(i,2)&1); j < W-bord; j+=2) {
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//interpolate R and B colors at G sites
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red[i][j] = CLIP((int)(green[i][j] - 0.25*((green[i-1][j]-red[i-1][j])+(green[i+1][j]-red[i+1][j])+ \
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(green[i][j-1]-red[i][j-1])+(green[i][j+1]-red[i][j+1]))));
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blue[i][j] = CLIP((int)(green[i][j] - 0.25*((green[i-1][j]-blue[i-1][j])+(green[i+1][j]-blue[i+1][j])+ \
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(green[i][j-1]-blue[i][j-1])+(green[i][j+1]-blue[i][j+1]))));
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}
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progress+=(double)0.33/(H);
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//if(plistener) plistener->setProgress(progress);
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}
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if(plistener) plistener->setProgress(0.99);
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#pragma omp for
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// interpolate R/B using color differences
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for (int i=bord; i< H-bord; i++) {
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for (int j=bord+1-(FC(i,2)&1); j < W-bord; j+=2) {
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//interpolate R and B colors at G sites
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red[i][j] = CLIP((int)(green[i][j] - 0.25*((green[i-1][j]-red[i-1][j])+(green[i+1][j]-red[i+1][j])+ \
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(green[i][j-1]-red[i][j-1])+(green[i][j+1]-red[i][j+1]))));
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blue[i][j] = CLIP((int)(green[i][j] - 0.25*((green[i-1][j]-blue[i-1][j])+(green[i+1][j]-blue[i+1][j])+ \
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(green[i][j-1]-blue[i][j-1])+(green[i][j+1]-blue[i][j+1]))));
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}
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progress+=(double)0.33/(H);
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//if(plistener) plistener->setProgress(progress);
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}
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if(plistener) plistener->setProgress(0.99);
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}
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#undef bord
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}//namespace
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