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Merge pull request #8776 from sovrasov:inpaint_adv_formats
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commit
37b1bc9d58
@ -89,7 +89,7 @@ enum
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/** @brief Restores the selected region in an image using the region neighborhood.
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@param src Input 8-bit 1-channel or 3-channel image.
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@param src Input 8-bit, 16-bit unsigned or 32-bit float 1-channel or 8-bit 3-channel image.
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@param inpaintMask Inpainting mask, 8-bit 1-channel image. Non-zero pixels indicate the area that
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needs to be inpainted.
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@param dst Output image with the same size and type as src .
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@ -277,7 +277,7 @@ icvCalcFMM(const CvMat *f, CvMat *t, CvPriorityQueueFloat *Heap, bool negate) {
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}
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}
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template <typename data_type>
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static void
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icvTeleaInpaintFMM(const CvMat *f, CvMat *t, CvMat *out, int range, CvPriorityQueueFloat *Heap ) {
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int i = 0, j = 0, ii = 0, jj = 0, k, l, q, color = 0;
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@ -463,31 +463,31 @@ icvTeleaInpaintFMM(const CvMat *f, CvMat *t, CvMat *out, int range, CvPriorityQu
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if (CV_MAT_ELEM(*f,uchar,k,l+1)!=INSIDE) {
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if (CV_MAT_ELEM(*f,uchar,k,l-1)!=INSIDE) {
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gradI.x=(float)((CV_MAT_ELEM(*out,uchar,km,lp+1)-CV_MAT_ELEM(*out,uchar,km,lm-1)))*2.0f;
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gradI.x=(float)((CV_MAT_ELEM(*out,data_type,km,lp+1)-CV_MAT_ELEM(*out,data_type,km,lm-1)))*2.0f;
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} else {
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gradI.x=(float)((CV_MAT_ELEM(*out,uchar,km,lp+1)-CV_MAT_ELEM(*out,uchar,km,lm)));
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gradI.x=(float)((CV_MAT_ELEM(*out,data_type,km,lp+1)-CV_MAT_ELEM(*out,data_type,km,lm)));
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}
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} else {
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if (CV_MAT_ELEM(*f,uchar,k,l-1)!=INSIDE) {
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gradI.x=(float)((CV_MAT_ELEM(*out,uchar,km,lp)-CV_MAT_ELEM(*out,uchar,km,lm-1)));
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gradI.x=(float)((CV_MAT_ELEM(*out,data_type,km,lp)-CV_MAT_ELEM(*out,data_type,km,lm-1)));
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} else {
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gradI.x=0;
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}
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}
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if (CV_MAT_ELEM(*f,uchar,k+1,l)!=INSIDE) {
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if (CV_MAT_ELEM(*f,uchar,k-1,l)!=INSIDE) {
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gradI.y=(float)((CV_MAT_ELEM(*out,uchar,kp+1,lm)-CV_MAT_ELEM(*out,uchar,km-1,lm)))*2.0f;
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gradI.y=(float)((CV_MAT_ELEM(*out,data_type,kp+1,lm)-CV_MAT_ELEM(*out,data_type,km-1,lm)))*2.0f;
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} else {
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gradI.y=(float)((CV_MAT_ELEM(*out,uchar,kp+1,lm)-CV_MAT_ELEM(*out,uchar,km,lm)));
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gradI.y=(float)((CV_MAT_ELEM(*out,data_type,kp+1,lm)-CV_MAT_ELEM(*out,data_type,km,lm)));
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}
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} else {
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if (CV_MAT_ELEM(*f,uchar,k-1,l)!=INSIDE) {
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gradI.y=(float)((CV_MAT_ELEM(*out,uchar,kp,lm)-CV_MAT_ELEM(*out,uchar,km-1,lm)));
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gradI.y=(float)((CV_MAT_ELEM(*out,data_type,kp,lm)-CV_MAT_ELEM(*out,data_type,km-1,lm)));
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} else {
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gradI.y=0;
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}
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}
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Ia += (float)w * (float)(CV_MAT_ELEM(*out,uchar,km,lm));
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Ia += (float)w * (float)(CV_MAT_ELEM(*out,data_type,km,lm));
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Jx -= (float)w * (float)(gradI.x*r.x);
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Jy -= (float)w * (float)(gradI.y*r.y);
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s += w;
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@ -497,7 +497,7 @@ icvTeleaInpaintFMM(const CvMat *f, CvMat *t, CvMat *out, int range, CvPriorityQu
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}
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sat = (float)((Ia/s+(Jx+Jy)/(sqrt(Jx*Jx+Jy*Jy)+1.0e-20f)+0.5f));
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{
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CV_MAT_ELEM(*out,uchar,i-1,j-1) = cv::saturate_cast<uchar>(sat);
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CV_MAT_ELEM(*out,data_type,i-1,j-1) = cv::saturate_cast<data_type>(sat);
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}
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}
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@ -509,7 +509,7 @@ icvTeleaInpaintFMM(const CvMat *f, CvMat *t, CvMat *out, int range, CvPriorityQu
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}
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}
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template <typename data_type>
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static void
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icvNSInpaintFMM(const CvMat *f, CvMat *t, CvMat *out, int range, CvPriorityQueueFloat *Heap) {
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int i = 0, j = 0, ii = 0, jj = 0, k, l, q, color = 0;
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@ -640,28 +640,28 @@ icvNSInpaintFMM(const CvMat *f, CvMat *t, CvMat *out, int range, CvPriorityQueue
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if (CV_MAT_ELEM(*f,uchar,k+1,l)!=INSIDE) {
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if (CV_MAT_ELEM(*f,uchar,k-1,l)!=INSIDE) {
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gradI.x=(float)(abs(CV_MAT_ELEM(*out,uchar,kp+1,lm)-CV_MAT_ELEM(*out,uchar,kp,lm))+
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abs(CV_MAT_ELEM(*out,uchar,kp,lm)-CV_MAT_ELEM(*out,uchar,km-1,lm)));
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gradI.x=(float)(std::abs(CV_MAT_ELEM(*out,data_type,kp+1,lm)-CV_MAT_ELEM(*out,data_type,kp,lm))+
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std::abs(CV_MAT_ELEM(*out,data_type,kp,lm)-CV_MAT_ELEM(*out,data_type,km-1,lm)));
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} else {
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gradI.x=(float)(abs(CV_MAT_ELEM(*out,uchar,kp+1,lm)-CV_MAT_ELEM(*out,uchar,kp,lm)))*2.0f;
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gradI.x=(float)(std::abs(CV_MAT_ELEM(*out,data_type,kp+1,lm)-CV_MAT_ELEM(*out,data_type,kp,lm)))*2.0f;
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}
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} else {
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if (CV_MAT_ELEM(*f,uchar,k-1,l)!=INSIDE) {
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gradI.x=(float)(abs(CV_MAT_ELEM(*out,uchar,kp,lm)-CV_MAT_ELEM(*out,uchar,km-1,lm)))*2.0f;
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gradI.x=(float)(std::abs(CV_MAT_ELEM(*out,data_type,kp,lm)-CV_MAT_ELEM(*out,data_type,km-1,lm)))*2.0f;
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} else {
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gradI.x=0;
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}
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}
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if (CV_MAT_ELEM(*f,uchar,k,l+1)!=INSIDE) {
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if (CV_MAT_ELEM(*f,uchar,k,l-1)!=INSIDE) {
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gradI.y=(float)(abs(CV_MAT_ELEM(*out,uchar,km,lp+1)-CV_MAT_ELEM(*out,uchar,km,lm))+
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abs(CV_MAT_ELEM(*out,uchar,km,lm)-CV_MAT_ELEM(*out,uchar,km,lm-1)));
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gradI.y=(float)(std::abs(CV_MAT_ELEM(*out,data_type,km,lp+1)-CV_MAT_ELEM(*out,data_type,km,lm))+
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std::abs(CV_MAT_ELEM(*out,data_type,km,lm)-CV_MAT_ELEM(*out,data_type,km,lm-1)));
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} else {
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gradI.y=(float)(abs(CV_MAT_ELEM(*out,uchar,km,lp+1)-CV_MAT_ELEM(*out,uchar,km,lm)))*2.0f;
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gradI.y=(float)(std::abs(CV_MAT_ELEM(*out,data_type,km,lp+1)-CV_MAT_ELEM(*out,data_type,km,lm)))*2.0f;
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}
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} else {
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if (CV_MAT_ELEM(*f,uchar,k,l-1)!=INSIDE) {
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gradI.y=(float)(abs(CV_MAT_ELEM(*out,uchar,km,lm)-CV_MAT_ELEM(*out,uchar,km,lm-1)))*2.0f;
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gradI.y=(float)(std::abs(CV_MAT_ELEM(*out,data_type,km,lm)-CV_MAT_ELEM(*out,data_type,km,lm-1)))*2.0f;
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} else {
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gradI.y=0;
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}
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@ -676,13 +676,13 @@ icvNSInpaintFMM(const CvMat *f, CvMat *t, CvMat *out, int range, CvPriorityQueue
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dir = (float)fabs(VectorScalMult(r,gradI)/sqrt(VectorLength(r)*VectorLength(gradI)));
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}
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w = dst*dir;
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Ia += (float)w * (float)(CV_MAT_ELEM(*out,uchar,km,lm));
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Ia += (float)w * (float)(CV_MAT_ELEM(*out,data_type,km,lm));
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s += w;
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}
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}
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}
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}
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CV_MAT_ELEM(*out,uchar,i-1,j-1) = cv::saturate_cast<uchar>((double)Ia/s);
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CV_MAT_ELEM(*out,data_type,i-1,j-1) = cv::saturate_cast<data_type>((double)Ia/s);
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}
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CV_MAT_ELEM(*f,uchar,i,j) = BAND;
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@ -744,11 +744,13 @@ cvInpaint( const CvArr* _input_img, const CvArr* _inpaint_mask, CvArr* _output_i
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if( !CV_ARE_SIZES_EQ(input_img,output_img) || !CV_ARE_SIZES_EQ(input_img,inpaint_mask))
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CV_Error( CV_StsUnmatchedSizes, "All the input and output images must have the same size" );
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if( (CV_MAT_TYPE(input_img->type) != CV_8UC1 &&
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if( (CV_MAT_TYPE(input_img->type) != CV_8U &&
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CV_MAT_TYPE(input_img->type) != CV_16U &&
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CV_MAT_TYPE(input_img->type) != CV_32F &&
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CV_MAT_TYPE(input_img->type) != CV_8UC3) ||
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!CV_ARE_TYPES_EQ(input_img,output_img) )
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CV_Error( CV_StsUnsupportedFormat,
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"Only 8-bit 1-channel and 3-channel input/output images are supported" );
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"8-bit, 16-bit unsigned or 32-bit float 1-channel and 8-bit 3-channel input/output images are supported" );
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if( CV_MAT_TYPE(inpaint_mask->type) != CV_8UC1 )
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CV_Error( CV_StsUnsupportedFormat, "The mask must be 8-bit 1-channel image" );
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@ -798,10 +800,36 @@ cvInpaint( const CvArr* _input_img, const CvArr* _inpaint_mask, CvArr* _output_i
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cvSub(out,band,out,NULL);
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SET_BORDER1_C1(out,uchar,0);
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icvCalcFMM(out,t,Out,true);
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icvTeleaInpaintFMM(mask,t,output_img,range,Heap);
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switch(CV_MAT_DEPTH(output_img->type))
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{
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case CV_8U:
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icvTeleaInpaintFMM<uchar>(mask,t,output_img,range,Heap);
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break;
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case CV_16U:
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icvTeleaInpaintFMM<ushort>(mask,t,output_img,range,Heap);
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break;
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case CV_32F:
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icvTeleaInpaintFMM<float>(mask,t,output_img,range,Heap);
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break;
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default:
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CV_Error( cv::Error::StsBadArg, "Unsupportedformat of the input image" );
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}
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}
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else if (flags == cv::INPAINT_NS) {
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icvNSInpaintFMM(mask,t,output_img,range,Heap);
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switch(CV_MAT_DEPTH(output_img->type))
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{
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case CV_8U:
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icvNSInpaintFMM<uchar>(mask,t,output_img,range,Heap);
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break;
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case CV_16U:
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icvNSInpaintFMM<ushort>(mask,t,output_img,range,Heap);
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break;
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case CV_32F:
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icvNSInpaintFMM<float>(mask,t,output_img,range,Heap);
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break;
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default:
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CV_Error( cv::Error::StsBadArg, "Unsupported format of the input image" );
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}
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} else {
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CV_Error( cv::Error::StsBadArg, "The flags argument must be one of CV_INPAINT_TELEA or CV_INPAINT_NS" );
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}
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@ -117,3 +117,26 @@ void CV_InpaintTest::run( int )
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}
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TEST(Photo_Inpaint, regression) { CV_InpaintTest test; test.safe_run(); }
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typedef testing::TestWithParam<std::tr1::tuple<int> > formats;
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TEST_P(formats, 1c)
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{
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const int type = std::tr1::get<0>(GetParam());
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Mat src(100, 100, type);
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src.setTo(Scalar::all(128));
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Mat ref = src.clone();
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Mat dst, mask = Mat::zeros(src.size(), CV_8U);
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circle(src, Point(50, 50), 5, Scalar(200), 6);
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circle(mask, Point(50, 50), 5, Scalar(200), 6);
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inpaint(src, mask, dst, 10, INPAINT_NS);
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Mat dst2;
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inpaint(src, mask, dst2, 10, INPAINT_TELEA);
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ASSERT_LE(cv::norm(dst, ref, NORM_INF), 3.);
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ASSERT_LE(cv::norm(dst2, ref, NORM_INF), 3.);
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}
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INSTANTIATE_TEST_CASE_P(Photo_Inpaint, formats, testing::Values(CV_32F, CV_16U, CV_8U));
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