Example #1
0
// default for type is set in imagelib.hpp
// type = 0: maximum (as in HSV)
// type = 1: mean 
// type = 2: luminance (use only for RGB images!)
ImageFeature makeGray(const ImageFeature &img, const uint type) {
  ImageFeature result(img.xsize(), img.ysize(),1) ;
  double value;
  
  if( (type == 2) && (img.zsize() != 3) )
  {
    ERR << "Image has invalid color resolution!" << endl;
    return result;
  }
  
  for(uint x=0;x<img.xsize();++x) {
    for(uint y=0;y<img.ysize();++y) {
      value=0.0;
      switch(type){
      case 0: //max
	for(uint c=0;c<img.zsize();++c) {
	  value=::std::max(value,img(x,y,c));
	}
	break;
      case 1: //mean
        for(uint c=0;c<img.zsize();++c) {
          value+=img(x,y,c);
        }
        value/=img.zsize();
        break;
      case 2: // luminance
        value = 0.3 * img(x,y,0) + 0.59 * img(x,y,1) + 0.11 * img(x,y,2);
        break;
      }
      result(x,y,0)=value;
    }
  }
  return result;
}
void LocalFeatureExtractor::extractPatches(ImageFeature &img, const ::std::vector<FeatureExtractionPosition> &positions, LocalFeatures &lf) {
  if(settings_.padding>0) {
    img=zeropad(img,settings_.padding, settings_.padding);
  }

  lf.winsize_=settings_.winsize;
  lf.padding_=settings_.padding;
  lf.numberOfFeatures_=positions.size();
  lf.zsize_=img.zsize();

  int windiameter=2*settings_.winsize+1;

  lf.dim_=windiameter*windiameter*img.zsize();
  lf.imageSizeX_=img.xsize();
  lf.imageSizeY_=img.ysize();
  lf.filename_=img.filename();

  int savesize=settings_.winsize*2+1;

  lf.positions_=positions;
  lf.data_.resize(positions.size());

  for(uint i=0;i<positions.size();++i) {
    const FeatureExtractionPosition &pos=positions[i];

    ImageFeature p=getPatch(img,pos.x,pos.y,pos.s);
    if(uint(pos.s)!=settings_.winsize) {
      p=scale(p,savesize,savesize);
    }
    lf.data_[i]=toVector(p);
  }
}
Example #3
0
void iDCT(ImageFeature &src, ImageFeature &dest) {
  dest.resize(src.xsize(),src.ysize(),src.zsize()); //NB Not efficient
  
  for(uint c=0;c<src.zsize();++c) {
  
    uint i,j,k;
    double sum;
    // Transform in x direction
    ImageFeature horizontal(src.xsize(), src.ysize(),1);
    for (j = 0; j < src.ysize(); j++) {
      for (i = 0; i < src.xsize(); i++) {
        sum = 0.0;
        for (k = 0; k < src.xsize(); k++) {
          sum += alpha(k,src.xsize())*src(k,j,0)* cos(double(2*i+1)*M_PI*double(k)/(double(2*src.xsize())));  
        }
        horizontal(i,j,0) = sum;
      }
    }

    // Transform in y direction
    for (i = 0; i < src.xsize(); i++) {
      for (j = 0; j < src.ysize(); j++) {
        sum = 0.0;
        for (k = 0; k < src.ysize(); k++) {
          sum += alpha(k, src.xsize())*horizontal(i,k,0)* cos(double(2*j+1)*M_PI*double(k)/(double(2*src.ysize()))); 
        }
        dest(i,j,c) = sum;
      }
    }
  }
}
Example #4
0
void rect(ImageFeature &img, const uint x, const uint y, const uint w, const uint h, const ::std::vector<double> &color, bool dash) {
  uint dashCounterMax = 3;
  uint dashCounter = dashCounterMax;
  uint dashMode = 1;
  // upper line
  for(uint i = x; i < x + w; ++i) { 
    dashCounter--;
    if (dashCounter == 0) {
      dashCounter = dashCounterMax;
      dashMode = 1 - dashMode;
    }
    for(uint c = 0; c < img.zsize(); ++c) {
      if (!dash || (dashMode == 1)) {
	img(i, y, c) = color[c];
      }
    }
  }
  // right line
  for(uint i = y; i < y + h; ++i) { 
    dashCounter--;
    if (dashCounter == 0) {
      dashCounter = dashCounterMax;
      dashMode = 1 - dashMode;
    }
    for(uint c = 0; c < img.zsize(); ++c) {
      if (!dash || (dashMode == 1)) {
	img(x + w - 1, i, c) = color[c];
      }
    }
  }
  // lower line
  for(int i = x + w - 1; i >= (int) x; --i) { 
    dashCounter--;
    if (dashCounter == 0) {
      dashCounter = dashCounterMax;
      dashMode = 1 - dashMode;
    }
    for(uint c = 0; c < img.zsize(); ++c) {
      if (!dash || (dashMode == 1)) {
	img(i, y + h - 1, c)=color[c];
      }
    }
  }
  // left line
  for(int i = y + h - 1; i >= (int) y; --i) { 
    dashCounter--;
    if (dashCounter == 0) {
      dashCounter = dashCounterMax;
      dashMode = 1 - dashMode;
    }
    for(uint c = 0; c < img.zsize(); ++c) {
      if (!dash || (dashMode == 1)) {
	img(x, i, c) = color[c];
      }
    }
  }
}
Example #5
0
void box(ImageFeature &img, const uint centerx, const uint centery, const vector<double> &color, const uint winsize) {
  for(uint x=centerx-winsize;x<=centerx+winsize;++x) {
    if(inImage(img,x,centery+winsize)) {for(uint c=0;c<img.zsize();++c) {img(x,centery+winsize,c)=color[c];}}
    if(inImage(img,x,centery-winsize)) {for(uint c=0;c<img.zsize();++c) {img(x,centery-winsize,c)=color[c];}}
  }
  
  for(uint y=centery-winsize;y<=centery+winsize;++y) {
    if(inImage(img,centerx+winsize,y)) {for(uint c=0;c<img.zsize();++c) {img(centerx+winsize,y,c)=color[c];}}
    if(inImage(img,centerx-winsize,y)) {for(uint c=0;c<img.zsize();++c) {img(centerx-winsize,y,c)=color[c];}}
  }
}
Example #6
0
void diagcross(ImageFeature &img, const uint x, const uint y,const vector<double>& color,const uint len) {
  //mark center
  if (inImage(img,x,y)) {for(uint c=0;c<img.zsize();++c) {img(x,y,c)=color[c];}}
  //mark outer pars
  for(uint i=1;i<=len;++i) {
    if(inImage(img,x+i,y+i)) {for(uint c=0;c<img.zsize();++c) {img(x+i,y+i,c)=color[c];}}
    if(inImage(img,x-i,y-i)) {for(uint c=0;c<img.zsize();++c) {img(x-i,y-i,c)=color[c];}}
    if(inImage(img,x-i,y+i)) {for(uint c=0;c<img.zsize();++c) {img(x-i,y+i,c)=color[c];}}
    if(inImage(img,x+i,y-i)) {for(uint c=0;c<img.zsize();++c) {img(x+i,y-i,c)=color[c];}}
  }
}
Example #7
0
ImageFeature rotate90(const ImageFeature &img) {
  uint X=img.xsize();
  ImageFeature result(img.ysize(),img.xsize(),img.zsize());
    for(uint x=0;x<img.ysize();++x) {
      for(uint y=0;y<img.xsize();++y) {
        for(uint z=0;z<img.zsize();++z) {
          result(x,y,z)=img(y,X-x-1,z);
        }
      }
    }
  return result;
}
Example #8
0
ImageFeature zeropad(const ImageFeature& image, uint xpad, uint ypad) {
  ImageFeature result(image.xsize()+2*xpad, image.ysize()+2*ypad, image.zsize());
  
  for(uint x=xpad;x<image.xsize()+xpad;++x) {
    for(uint y=ypad;y<image.ysize()+ypad;++y) {
      for(uint c=0;c<image.zsize();++c) {
        result(x,y,c)=image(x-xpad,y-ypad,c);
      }
    }
  }
  return result;
}
Example #9
0
ImageFeature flip(const ImageFeature &img) {
  ImageFeature result(img.xsize(),img.ysize(),img.zsize());
  
  for(uint x=0;x<img.xsize();++x) {
    for(uint y=0;y<img.ysize();++y) {
      for(uint z=0;z<img.zsize();++z) {
        result(img.xsize()-x-1,y,z)=img(x,y,z);
      }
    }
  }
  return result;
}
Example #10
0
void multiply(ImageFeature &img1, const ImageFeature& img2) {
  if ((img1.xsize() != img2.xsize()) ||
      (img1.ysize() != img2.ysize()) ||
      (img1.zsize() != img2.zsize())) {
    DBG(10) << "image features have different sizes, cannot be multiplied.";
  }
  for (uint z = 0; z < img1.zsize(); z++)
    for (uint x = 0; x < img1.xsize(); x++)
      for (uint y = 0; y < img1.ysize(); y++) {
	img1(x, y, z) = img1(x, y, z) * img2(x, y, z);
      }
}
Example #11
0
ImageFeature localEntropy(const ImageFeature &image, const uint winsize) {
  ImageFeature result(image.xsize(), image.ysize(), image.zsize());
  
  for(uint x=0;x<image.xsize();++x) {
    for(uint y=0;y<image.ysize();++y) {
      for(uint z=0; z<image.zsize();++z) {
        result(x,y,z)=localEntropy(image, x,y,z,winsize);
      }
    }
  }
  
  return result;
}
Example #12
0
ImageFeature threshold(const ImageFeature &image, const double threshold) {
  ImageFeature result(image.xsize(), image.ysize(), image.zsize());
  for(uint x=0;x<image.xsize();++x) {
    for(uint y=0;y<image.ysize();++y) {
      for(uint z=0;z<image.zsize();++z) {
        if(image(x,y,z)>=threshold) {
          result(x,y,z)=1.0;
        } else {
          result(x,y,z)=0.0;
        }
      }
    }
  }
  return result;
}
Example #13
0
ImageFeature getPatch(const ImageFeature &image, const uint left, const uint top, const uint right, const uint bottom) {
  DBG(50) << "get image patch from (" << left << "," << top << ") to (" << right << "," << bottom << ") " << endl;
  ImageFeature result(right-left+1, bottom-top+1,image.zsize());
  
  for(uint x=left;x<=right;++x) {
    for(uint y=top;y<=bottom;++y) {
      for(uint z=0;z<image.zsize();++z) {
        if(x<image.xsize() && y<image.ysize() && x>0 && y>0) {
          result(x-left,y-top,z)=image(x,y,z);
        }
      }
    }
  }
  return result;
}
Example #14
0
InterpolatingImage::InterpolatingImage(const ImageFeature& image, uint splinedegree) : sourceImage_(image), splinedegree_(splinedegree) {
#ifdef HAVE_INTERPOL_LIBRARY
    coeff_=new float*[image.zsize()];
    for(uint i=0; i<image.zsize(); ++i) {
        coeff_[i]=new float[image.xsize()*image.ysize()];
        for(uint x=0; x<image.xsize(); ++x) {
            for(uint y=0; y<image.ysize(); ++y) {
                coeff_[i][y*image.xsize()+x]=float(image(x,y,i));
            }
        }
        SamplesToCoefficients(coeff_[i],image.xsize(),image.ysize(),splinedegree);
    }
#endif


}
Example #15
0
void convolve(ImageFeature &img, const ImageFeature &filter) {
  ImageFeature copy=img;
  
  int height2=filter.ysize()/2;
  int width2=filter.xsize()/2;

  double tmp;
  for(uint c=0;c<img.zsize();++c) {
    for(uint x=0;x<img.xsize();++x) {
      for(uint y=0;y<img.ysize();++y) {
        tmp=0.0;
        for(int i=-width2;i<=width2;++i) {
          int xx=x+i;
          if(xx<int(img.xsize()) && int(xx) >= 0) {
            for(int j=-height2;j<=height2;++j) {
              int yy=y+j; 
              if(int(yy)>=0 && yy < int(img.ysize())) {
                tmp+=filter(i+width2,j+height2,0)*copy(xx,yy,c);
              }
            }
          }
        }
        img(x,y,c)=tmp;
      }
    }
  }
}
Example #16
0
void shift(ImageFeature &img, const double offset) {
  for(uint c=0;c<img.zsize();++c) {
    for(uint x=0;x<img.xsize();++x) {
      for(uint y=0;y<img.ysize();++y) {
        img(x,y,c)+=offset;
      }}}
}
Example #17
0
void histogramNormalization(ImageFeature &img) {
  const uint bins=256;
  vector<int> H(bins);
  vector<double> T(bins);

  for(uint c=0;c<img.zsize();++c) {
    //DBG(10) << "c=" << c << endl;
    
    for(uint x=0;x<img.xsize();++x) {
      for(uint y=0;y<img.ysize();++y) {
        ++H[int(img(x,y,c)*255)];
      }
    }
    
    for(uint p=1;p<bins;++p) {
      H[p]+=H[p-1];
    }
    
    for(uint p=0;p<bins;++p) {
      T[p]=(1.0/double(img.size()))*double(H[p]);
    }
    
    for(uint x=0;x<img.xsize();++x) {
      for(uint y=0;y<img.ysize();++y) {
        img(x,y,c)=T[int(img(x,y,c)*255)];
      }
    }
    
  }
}
Example #18
0
void ImageFeature::append(const ImageFeature& img) {
  if(img.xsize()==xsize_ && img.ysize() == ysize_) {
    uint oldsize=data_.size();
    data_.resize(data_.size()+img.zsize(),vector<double>(xsize()*ysize()));
    
    for(uint c=0;c<img.zsize();++c) {
      for(uint x=0;x<img.xsize();++x) {
        for(uint y=0;y<img.ysize();++y) {
          (*this)(x,y,oldsize+c)=img(x,y,c);
        }
      }
    }
    zsize_=data_.size();
  } else {
    ERR << "Images not compatible for appending" << endl;
  }
}
Example #19
0
void gammaCorrection(ImageFeature &img, double gamma) {
  for(uint c=0;c<img.zsize();++c) {
    for(uint x=0;x<img.xsize();++x) {
      for(uint y=0;y<img.ysize();++y) {
        img(x,y,c)=exp(gamma*log(img(x,y,c)));
      }
    }
  }
}
Example #20
0
void multiply(ImageFeature &img, const double s) {
  for(uint z=0;z<img.zsize();++z) {
    for(uint x=0;x<img.xsize();++x) {
      for(uint y=0;y<img.ysize();++y)  {
        img(x,y,z)*=s;
      }
    }
  }
}
Example #21
0
ImageFeature getPatch(const ImageFeature &image, const uint xpos, const uint ypos, const uint winsize) {
  uint dim=2*winsize+1;

  ImageFeature result(dim,dim,image.zsize());
  
  for(int x=(int)xpos-(int)winsize;x<=(int)xpos+(int)winsize;++x) {
    for(int y=(int)ypos-(int)winsize;y<=(int)ypos+(int)winsize;++y) {
      for(uint z=0;z<image.zsize();++z) {
        if(inImage(image,x,y,z)) {
          result(x+winsize-xpos,y+winsize-ypos,z)=image(x,y,z);
        } else {
          result(x+winsize-xpos,y+winsize-ypos,z)=0.0;
        }
      }
    }
  }
  return result;
}
Example #22
0
void absolute(ImageFeature &img1) {
  for (uint z = 0; z < img1.zsize(); z++)
    for (uint x = 0; x < img1.xsize(); x++)
      for (uint y = 0; y < img1.ysize(); y++) {
	if (img1(x, y, z) < 0.0) {
	  img1(x, y, z) = -img1(x, y, z);
	} 
      }
}
Example #23
0
void divide(ImageFeature &a, const double &d) {
  for(uint x=0;x<a.xsize();++x) {
    for(uint y=0;y<a.ysize();++y) {
      for(uint z=0;z<a.zsize();++z) {
        a(x,y,z)/=d;
      }
    }
  }
}
Example #24
0
void cutoff(ImageFeature &img, const double minimum, const double maximum) {
  for(uint c=0;c<img.zsize();++c) {
    for(uint x=0;x<img.xsize();++x) {
      for(uint y=0;y<img.ysize();++y) {
        img(x,y,c)=max(minimum,img(x,y,c));
        img(x,y,c)=min(maximum,img(x,y,c));
      }
    }
  }
}
Example #25
0
void appendHorizontally(ImageFeature &imga, const ImageFeature &imgb) {
  if(imga.ysize()!=imgb.ysize() || imga.zsize() != imgb.zsize()) {
    ERR << "Images have to have same width and depth" << endl;
  } else {
    ImageFeature tmp(imga);
    imga.resize(imga.xsize()+imgb.xsize(),imga.ysize(),imga.zsize());
    
    for(uint y=0;y<tmp.ysize();++y) {
      for(uint z=0;z<tmp.zsize();++z) {      
        for(uint x=0;x<tmp.xsize();++x) {
          imga(x,y,z)=tmp(x,y,z);
        }
        for(uint x=tmp.xsize();x<tmp.xsize()+imgb.xsize();++x) {
          imga(x,y,z)=imgb(x-tmp.xsize(),y,z);
        }
      }
    }
  }
}
Example #26
0
void contrast(ImageFeature &img,const double min, const double max) {
  double m=max-min;
  for(uint x=0;x<img.xsize();++x) {
    for(uint y=0;y<img.ysize();++y) {
      for(uint z=0;z<img.zsize();++z) {
        img(x,y,z)=img(x,y,z)*m+min;
      }
    }
  }
}
Example #27
0
void setPatch(ImageFeature& image, const uint xpos, const uint ypos, const ImageFeature &patch) {
  DBG(50) << "set image patch from (" << xpos << "," << ypos << ") to (" << xpos+patch.xsize() << "," << ypos+patch.ysize() << ") " << endl;
  for(uint x=0;x<patch.xsize();++x) {
    for(uint y=0;y<patch.ysize();++y) {
      for(uint z=0;z<patch.zsize();++z) {
        if(x+xpos<image.xsize() && y+ypos<image.ysize()) {
          image(x+xpos,y+ypos,z)=patch(x,y,z);
        }
      }
    }
  }
}
Example #28
0
void power(ImageFeature &img1, int p) {
  for (uint z = 0; z < img1.zsize(); z++)
    for (uint x = 0; x < img1.xsize(); x++)
      for (uint y = 0; y < img1.ysize(); y++) {
	double tmp = 1.0;
	double val = img1(x, y, z);
	for (int t = 0; t < p; t++) {
	  tmp *= val;
	}
	img1(x, y, z) = tmp;
      }
}
Example #29
0
ImageFeature calculate(const ImageFeature &img) {
  ImageFeature result(img.xsize(), img.ysize(), 3);

  ImageFeature tmp;
  // process the layers
  for(uint z=0;z<img.zsize();++z) {
    tmp=directionality(img,z);
    add(result,tmp,0);
    
    tmp=coarseness(img,z);
    add(result,tmp,1);

    tmp=contrast(img,z);
    add(result,tmp,2);
  }
  
  divide(result,img.zsize());
//  normalize(result);
//  result.save("result.png");
  return result;
}
Example #30
0
void signedPower(ImageFeature &img1, int p) {
  for (uint z = 0; z < img1.zsize(); z++)
    for (uint x = 0; x < img1.xsize(); x++)
      for (uint y = 0; y < img1.ysize(); y++) {
	double tmp = 1.0;
	for (int t = 0; t < p; t++) {
	  tmp *= img1(x, y, z);
	}
	if ((img1(x, y, z) < 0.0) && ((p % 2) == 0)) {
	  tmp *= -1.0;
	}
	img1(x, y, z) = tmp;
      }
}