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stim/envi/bsq.h 63.5 KB
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  #ifndef STIM_BSQ_H
  #define STIM_BSQ_H
  
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  #include <stim/envi/envi_header.h>
  #include <stim/envi/hsi.h>
  #include <stim/envi/bil.h>
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  #include <cstring>
  #include <utility>
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  #include <vector>
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  #include <deque>
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  #include <chrono>
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  #include <future>
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  #include <algorithm>
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  namespace stim{
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  /**
  	The BIP class represents a 3-dimensional binary file stored using band sequential (BSQ) image encoding. The binary file is stored
  	such that X-Y "frames" are stored sequentially to form an image stack along the z-axis. When accessing the data sequentially on disk,
  	the dimensions read, from fastest to slowest, are X, Y, Z.
  
  	This class is optimized for data streaming, and therefore supports extremely large (terabyte-scale) files. Data is loaded from disk
  	on request. Functions used to access data are written to support efficient reading.
  */
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  template <typename T>
  
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  class bsq: public hsi<T> {
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  protected:
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  	//std::vector<double> w;	//band wavelengths
  	unsigned long long offset;
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  	using binary<T>::R;
  
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  	using hsi<T>::w;				//use the wavelength array in stim::hsi
  	using hsi<T>::nnz;
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  	using binary<T>::progress;
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  	using hsi<T>::X;
  	using hsi<T>::Y;
  	using hsi<T>::Z;
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  public:
  
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  	using binary<T>::open;
  	using binary<T>::file;
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  	using binary<T>::read_line_2;
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  	using binary<T>::read_plane_2;
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  	bsq(){ hsi<T>::init_bsq(); }
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  	/// Open a data file for reading using the class interface.
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  	/// @param filename is the name of the binary file on disk
  	/// @param X is the number of samples along dimension 1
  	/// @param Y is the number of samples (lines) along dimension 2
  	/// @param B is the number of samples (bands) along dimension 3
  	/// @param header_offset is the number of bytes (if any) in the binary header
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  	/// @param wavelengths is an STL vector of size B specifying a numerical label for each band
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  	bool open(std::string filename,
  			  unsigned long long X,
  			  unsigned long long Y,
  			  unsigned long long B,
  			  unsigned long long header_offset,
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  			  std::vector<double> wavelengths,
  			  stim::iotype io = stim::io_in){
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  		//copy the wavelengths to the BSQ file structure
  		w = wavelengths;
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  		//copy the wavelengths to the structure
  		offset = header_offset;
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  		return open(filename, vec<unsigned long long>(X, Y, B), header_offset, io);
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  	}
  
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  	/// Retrieve a single band (based on index) and stores it in pre-allocated memory.
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  	/// @param p is a pointer to an allocated region of memory at least X * Y * sizeof(T) in size.
  	/// @param page <= B is the integer number of the band to be copied.
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  	bool band_index( T * p, unsigned long long page){
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  		return read_plane_2(p, page);		//call the binary read_plane function (don't let it update the progress)
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  	}
  
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  	/// Retrieve a single band (by numerical label) and stores it in pre-allocated memory.
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  	/// @param p is a pointer to an allocated region of memory at least X * Y * sizeof(T) in size.
  	/// @param wavelength is a floating point value (usually a wavelength in spectral data) used as a label for the band to be copied.
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  	bool band( T * p, double wavelength, bool PROGRESS = false){
  		if(PROGRESS) progress = 0;
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  		//if there are no wavelengths in the BSQ file
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  		if(w.size() == 0){
  			band_index(p, (unsigned long long)wavelength);
  			if(PROGRESS) progress = 100;
  			return true;
  		}
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  		unsigned long long XY = X() * Y();	//calculate the number of pixels in a band
  		unsigned long long page = 0;
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  		//get the two neighboring bands (above and below 'wavelength')
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  		//if wavelength is smaller than the first one in header file
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  		if ( w[page] > wavelength ){
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  			band_index(p, page);
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  			if(PROGRESS) progress = 100;
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  			return true;
  		}
  
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  		while( w[page] < wavelength )
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  		{
  			page++;
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  			//if wavelength is larger than the last wavelength in the header file
  			//	(the wavelength is out of bounds)
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  			if (page == Z()) {
  				band_index(p, Z()-1);		//return the last band
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  				if(PROGRESS) progress = 100;
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  				return true;
  			}
  		}
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  		//when the page counter points to the first band above 'wavelength'
  		if ( wavelength < w[page] ){
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  			//do the interpolation
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  			T * p1;
  			T * p2;
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  			p1=(T*)malloc( XY * sizeof(T));                     //memory allocation
  			p2=(T*)malloc( XY * sizeof(T));
  			band_index(p1, page - 1);
  			band_index(p2, page );
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  			for(unsigned long long i=0; i < XY; i++){
  				double r = (wavelength - w[page-1]) / (w[page] - w[page-1]);
  				p[i] = (T)(((double)p2[i] - (double)p1[i]) * r + (double)p1[i]);
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  			}
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  			free(p1);
  			free(p2);
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  		}
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  		//if the wavelength is equal to a wavelength in header file
  		else{
  			band_index(p, page);		//return the band
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  		}
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  		if(PROGRESS) progress = 100;
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  		return true;
  	}
  
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  	/// Retrieve a single spectrum (Z-axis line) at a given (x, y) location and stores it in pre-allocated memory.
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  	/// @param p is a pointer to pre-allocated memory at least B * sizeof(T) in size.
  	/// @param x is the x-coordinate (dimension 1) of the spectrum.
  	/// @param y is the y-coordinate (dimension 2) of the spectrum.
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  	void spectrum(T* p, size_t n, bool PROGRESS){
  		read_line_2(p, n, PROGRESS);
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  	}
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  	void spectrum(T * p, unsigned long long x, unsigned long long y, bool PROGRESS = false){
  		read_line_2(p, x, y, PROGRESS);
  	}
  
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  	/// Retrieve a single pixel and stores it in pre-allocated memory.
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  	/// @param p is a pointer to pre-allocated memory at least sizeof(T) in size.
  	/// @param n is an integer index to the pixel using linear array indexing.
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  	bool pixel(T * p, unsigned long long n){
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  		unsigned long long bandnum = X() * Y();		//calculate numbers in one band
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  		if ( n >= bandnum){							//make sure the pixel number is right
  			std::cout<<"ERROR: sample or line out of range"<<std::endl;
  			return false;
  		}
  
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  		file.seekg(n * sizeof(T) + binary<T>::header, std::ios::beg);           //point to the certain pixel
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  		for (unsigned long long i = 0; i < Z(); i++)
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  		{
  			file.read((char *)(p + i), sizeof(T));
  			file.seekg((bandnum - 1) * sizeof(T), std::ios::cur);    //go to the next band
  		}
  
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  		return true;
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  	}
  
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  	/// Perform baseline correction given a list of baseline points and stores the result in a new BSQ file.
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  	/// @param outname is the name of the output file used to store the resulting baseline-corrected data.
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  	/// @param wls is the list of baseline points based on band labels.
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  	bool baseline(std::string outname, std::vector<double> wls, unsigned char* mask = NULL, bool PROGRESS = false )
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  	{
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  		size_t N = wls.size();			//get the number of baseline points
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  		std::ofstream target(outname.c_str(), std::ios::binary);	//open the target binary file
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  		std::string headername = outname + ".hdr";              //the header file name
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  		//simplify image resolution
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  		unsigned long long B = Z();		//calculate the number of bands
  		unsigned long long XY = X() * Y();	//calculate the number of pixels in a band
  		unsigned long long S = XY * sizeof(T);		//calculate the number of bytes in a band
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  		double ai, bi;	//stores the two baseline points wavelength surrounding the current band
  		double ci;		//stores the current band's wavelength
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  		unsigned long long control=0;
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  		T * a;					//pointers to the high and low band images
  		T * b;
  		T * c;				//pointer to the current image
  
  		a = (T*)malloc( S );     //memory allocation
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  		b = (T*)malloc( S );
  		c = (T*)malloc( S );
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  		if (a == NULL || b == NULL || c == NULL){
  			std::cout<<"ERROR: error allocating memory";
  			exit(1);
  		}
  
  
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  		//initialize lownum, highnum, low, high
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  		ai=w[0];
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  		//if no baseline point is specified at band 0,
  			//set the baseline point at band 0 to 0
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  		if(wls[0] != w[0]){
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  			bi = wls[control];
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  			memset(a, (char)0, S);
  		}
  		//else get the low band
  		else{
  			control += 1;
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  			band(a, ai);
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  			bi = wls[control];
  		}
  		//get the high band
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  		band(b, bi);
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  		//correct every band
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  		for(unsigned long long cii = 0; cii < B; cii++){
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  			//update baseline points, if necessary
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  			if( w[cii] >= bi && cii != B - 1) {
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  				//if the high band is now on the last BL point?
  				if (control != N-1) {
  
  					control++;		//increment the index
  
  					std::swap(a, b);	//swap the baseline band pointers
  
  					ai = bi;
  					bi = wls[control];
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  					band(b, bi);
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  				}
  				//if the last BL point on the last band of the file?
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  				else if ( wls[control] < w[B - 1]) {
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  					std::swap(a, b);	//swap the baseline band pointers
  
  					memset(b, (char)0, S);	//clear the high band
  
  					ai = bi;
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  					bi = w[B - 1];
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  				}
  			}
  
  			//get the current band
  			band_index(c, cii);
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  			ci = w[cii];
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  			//perform the baseline correction
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  			for(unsigned long long i=0; i < XY; i++){
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  				if(mask != NULL && !mask[i])								//if the pixel is excluded by a mask
  					c[i] = 0;												//set the value to zero
  				else{
  					double r = (double) (ci - ai) / (double) (bi - ai);
  					c[i] =(T) ( c[i] - (b[i] - a[i]) * r - a[i] );
  				}
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  			}
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  			target.write(reinterpret_cast<const char*>(c), S);   //write the corrected data into destination
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  			if(PROGRESS)progress = (double)(cii+1) / B * 100;
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  		}
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  		//header.save(headername);         //save the new header file
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  		free(a);
  		free(b);
  		free(c);
  		target.close();
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  		return true;
  	}
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  	/// Normalize all spectra based on the value of a single band, storing the result in a new BSQ file.
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  	/// @param outname is the name of the output file used to store the resulting baseline-corrected data.
  	///	@param w is the label specifying the band that the hyperspectral image will be normalized to.
  	///	@param t is a threshold specified such that a spectrum with a value at w less than t is set to zero. Setting this threshold allows the user to limit division by extremely small numbers.
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  	bool ratio(std::string outname, double w, unsigned char* mask = NULL, bool PROGRESS = false)
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  	{
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  		unsigned long long B = Z();		//calculate the number of bands
  		unsigned long long XY = X() * Y();	//calculate the number of pixels in a band
  		unsigned long long S = XY * sizeof(T);		//calculate the number of bytes in a band
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  		std::ofstream target(outname.c_str(), std::ios::binary);	//open the target binary file
  		std::string headername = outname + ".hdr";              //the header file name
  
  		T * b;					//pointers to the certain wavelength band
  		T * c;				//pointer to the current image
  
  		b = (T*)malloc( S );     //memory allocation
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  		c = (T*)malloc( S );
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  		band(b, w);             //get the certain band into memory
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  		for(unsigned long long j = 0; j < B; j++)
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  		{
  			band_index(c, j);                     //get the current band into memory
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  			for(unsigned long long i = 0; i < XY; i++)
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  			{
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  				if(mask != NULL && !mask[i])
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  					c[i] = (T)0.0;
  				else
  					c[i] = c[i] / b[i];
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  			}
  			target.write(reinterpret_cast<const char*>(c), S);   //write normalized data into destination
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  			if(PROGRESS) progress = (double)(j+1) / B * 100;
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  		}
  
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  		//header.save(headername);         //save the new header file
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  		free(b);
  		free(c);
  		target.close();
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  		return true;
  	}
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  	void normalize(std::string outfile, unsigned char* mask = NULL, bool PROGRESS = false){
  		size_t B = Z();								//calculate the number of bands
  		size_t XY = X() * Y();						//calculate the number of pixels in a band
  		size_t XYb = XY * sizeof(T);				//calculate the size of a band in bytes
  
  		std::ofstream out(outfile.c_str(), std::ios::binary);		//open the output file
  		file.seekg(0, std::ios::beg);							//move the pointer to the current file to the beginning
  
  		T* len = (T*)malloc(XYb);					//allocate space to store the vector length
  		memset(len, 0, XYb);						//initialize the vector length to zero (0)
  
  		T* band = (T*) malloc(XYb);					//allocate space to store a band image
  
  		for(size_t b = 0; b < B; b++){
  			file.read((char*)band, XYb);
  			for(size_t xy = 0; xy < XY; xy++){
  				if(mask == NULL || mask[xy]){
  					len[xy] += pow(band[xy], 2);		//sum the squared value for each pixel value in the band
  				}
  			}
  			if(PROGRESS) progress = (double) (b+1) / (double)B * 50;
  		}
  		for(size_t xy = 0; xy < XY; xy++){				//for each pixel, calculate the square root
  			if(mask == NULL || mask[xy]){
  				len[xy] += pow(band[xy], 2);		//sum the squared value for each pixel value in the band
  			}
  		}
  		file.seekg(0, std::ios::beg);							//move the pointer to the current file to the beginning
  		for(size_t b = 0; b < B; b++){
  			file.read((char*)band, XYb);
  			for(size_t xy = 0; xy < XY; xy++){
  				if(mask == NULL || mask[xy]){
  					band[xy] /= len[xy];						//divide the band by the vector length
  				}
  			}
  			out.write((char*)band, XYb);
  			if(PROGRESS) progress = (double) (b+1) / (double)B * 50 + 50;
  		}
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  	}
  
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  	size_t readlines(T* dest, size_t start, size_t n){
  		return hsi<T>::read(dest, 0, start, 0, X(), n, Z());
  	}
  
  	size_t writeblock(std::ofstream* f, T* src, size_t n){
  		auto t0 = std::chrono::high_resolution_clock::now();
  		f->write((char*)src, n);
  		auto t1 = std::chrono::high_resolution_clock::now();
  		return std::chrono::duration_cast<std::chrono::milliseconds>(t1-t0).count();
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  	}
  
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  	/// Convert this BSQ file to a BIL
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  	bool bil(std::string outname, bool PROGRESS = false, bool VERBOSE = false, bool OPTIMIZATION = true){
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  		const size_t buffers = 4;													//number of buffers required for this algorithm
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  		size_t mem_per_batch = binary<T>::buffer_size / buffers;					//calculate the maximum memory available for a batch
  
  		size_t slice_bytes = X() * Z() * sizeof(T);									//number of bytes in an input batch slice (Y-slice in this case)
  		size_t max_slices_per_batch = mem_per_batch / slice_bytes;					//maximum number of slices we can process in one batch given memory constraints
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  		std::cout<<"maximum memory available for processing: "<<(double)binary<T>::buffer_size/(double)1000000<<" MB"<<std::endl;
  		std::cout<<"     this supports a batch size of "<<max_slices_per_batch<<" Y-axis slices ("<<X()<<" x "<<Z()<<") = "<<X() * Z() * sizeof(T) * max_slices_per_batch/1000000<<" MB"<<std::endl;
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  		if(max_slices_per_batch == 0){														//if there is insufficient memory for a single slice, throw an error
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  			std::cout<<"error, insufficient memory for stim::bsq::bil()"<<std::endl;
  			exit(1);
  		}
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  		size_t max_batch_bytes = max_slices_per_batch * slice_bytes;				//calculate the amount of memory that will be allocated for all four buffers
  
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  		stream_optimizer O(1, max_slices_per_batch);
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  		T* src[2];																	//source double-buffer for asynchronous batching
  		src[0] = (T*) malloc(max_batch_bytes);
  		src[1] = (T*) malloc(max_batch_bytes);
  		T* dst[2];																	//destination double-buffer for asynchronous batching
  		dst[0] = (T*) malloc(max_batch_bytes);
  		dst[1] = (T*) malloc(max_batch_bytes);
  
  		size_t N[2];																		//number of slices stored in buffers 0 and 1
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  		N[0] = N[1] = std::min<size_t>(Y(), max_slices_per_batch);										//start with the maximum number of slices that can be stored (may be the entire data set)
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  		std::ofstream target(outname.c_str(), std::ios::binary);					//open an output file for writing
  																		//initialize with buffer 0 (used for double buffering)
  		size_t y_load = 0;
  		size_t y_proc = 0;
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  		std::future<size_t> rthread;
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  		std::future<std::ostream&> wthread;										//create asynchronous threads for reading and writing
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  		std::chrono::high_resolution_clock::time_point t_start, pt_start;						//high-resolution timers
  		std::chrono::high_resolution_clock::time_point t_end, pt_end;
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  		size_t t_batch;																//number of milliseconds to process a batch
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  		size_t t_total = 0;														//total time for operation
  		size_t pt_total = 0;													//total time spent processing data
  		size_t rt_total = 0;													//total time spent reading data
  		size_t wt_total = 0;
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  		size_t dr = 0;
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  		rt_total += readlines(src[0], 0, N[0]);					//read the first batch into the 0 source buffer
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  		y_load += N[0];											//increment the loaded slice counter
  		int b = 1;												//initialize the double buffer to 0
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  		while(y_proc < Y()){													//while there are still slices to be processed
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  			t_start = std::chrono::high_resolution_clock::now();					//start the timer for this batch
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  			if(y_load < Y()){													//if there are still slices to be loaded, load them
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  				//if(y_proc > 0){
  					
  					
  				//}
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  				if(y_load + N[b] > Y()) N[b] = Y() - y_load;					//if the next batch would process more than the total slices, adjust the batch size
  				rthread = std::async(std::launch::async, &stim::bsq<T>::readlines, this, src[b], y_load, N[b]);
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  				//rt_total += rthread.get();
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  				y_load += N[b];													//increment the number of loaded slices
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  			}
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  			b = !b;																//swap the double-buffer
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  			pt_total += binary<T>::permute(dst[b], src[b], X(), N[b], Z(), 0, 2, 1);		//permute the batch to a BIL file
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  			wt_total += writeblock(&target, dst[b], N[b] * slice_bytes);			//write the permuted data to the output file
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  			y_proc += N[b];														//increment the counter of processed pixels
  			if(PROGRESS) progress = (double)( y_proc + 1 ) / Y() * 100;			//increment the progress counter based on the number of processed pixels
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  			if(y_proc < Y()) rt_total += rthread.get();					//if a new batch was set to load, make sure it loads after calculations
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  			t_end = std::chrono::high_resolution_clock::now();
  			t_batch = std::chrono::duration_cast<std::chrono::milliseconds>(t_end-t_start).count();
  			t_total += t_batch;
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  			if(OPTIMIZATION)
  				N[b] = O.update(N[!b] * slice_bytes, t_batch, binary<T>::data_rate, VERBOSE);					//set the batch size based on optimization
  			//binary<T>::data_rate = dr;
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  			//std::cout<<"New N = "<<N[!b]<<" selected with "<<(double)data_rate / 1000000<<" MB/s"<<std::endl;
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  		}
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  		free(src[0]);															//free buffer resources
  		free(src[1]);
  		free(dst[0]);
  		free(dst[1]);
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  		//if(VERBOSE){
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  			std::cout<<"total time to execute bsq::bil(): "<<t_total<<" ms"<<std::endl;
  			std::cout<<"     total time spent processing: "<<pt_total<<" ms"<<std::endl;
  			std::cout<<"        total time spent reading: "<<rt_total<<" ms"<<std::endl;
  			std::cout<<"        total time spent writing: "<<wt_total<<" ms"<<std::endl;
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  		//}
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  		return true;															//return true
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  	}
  
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  	/// Convert this BSQ file to a BIP
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  	bool bip(std::string outname, bool PROGRESS = false, bool VERBOSE = false, bool OPTIMIZATION = true){
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  		const size_t buffers = 4;													//number of buffers required for this algorithm
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  		size_t mem_per_batch = binary<T>::buffer_size / buffers;					//calculate the maximum memory available for a batch
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  		size_t slice_bytes = X() * Z() * sizeof(T);									//number of bytes in an input batch slice (Y-slice in this case)
  		size_t max_slices_per_batch = mem_per_batch / slice_bytes;					//maximum number of slices we can process in one batch given memory constraints
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  		std::cout<<"maximum memory available for processing: "<<(double)binary<T>::buffer_size/(double)1000000<<" MB"<<std::endl;
  		std::cout<<"     this supports a batch size of "<<max_slices_per_batch<<" Y-axis slices ("<<X()<<" x "<<Z()<<") = "<<X() * Z() * sizeof(T) * max_slices_per_batch/1000000<<" MB"<<std::endl;
  
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  		if(max_slices_per_batch == 0){														//if there is insufficient memory for a single slice, throw an error
  			std::cout<<"error, insufficient memory for stim::bsq::bil()"<<std::endl;
  			exit(1);
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  		}
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  		size_t max_batch_bytes = max_slices_per_batch * slice_bytes;				//calculate the amount of memory that will be allocated for all four buffers
  
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  		stream_optimizer O(1, max_slices_per_batch);
  
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  		T* src[2];																	//source double-buffer for asynchronous batching
  		src[0] = (T*) malloc(max_batch_bytes);
  		src[1] = (T*) malloc(max_batch_bytes);
  		T* dst[2];																	//destination double-buffer for asynchronous batching
  		dst[0] = (T*) malloc(max_batch_bytes);
  		dst[1] = (T*) malloc(max_batch_bytes);
  
  		size_t N[2];																		//number of slices stored in buffers 0 and 1
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  		N[0] = N[1] = std::min<size_t>(Y(), max_slices_per_batch);										//start with the maximum number of slices that can be stored (may be the entire data set)
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  		std::ofstream target(outname.c_str(), std::ios::binary);					//open an output file for writing
  																		//initialize with buffer 0 (used for double buffering)
  		size_t y_load = 0;
  		size_t y_proc = 0;
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  		std::future<size_t> rthread;
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  		std::future<std::ostream&> wthread;										//create asynchronous threads for reading and writing
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  		std::chrono::high_resolution_clock::time_point t_start, pt_start;						//high-resolution timers
  		std::chrono::high_resolution_clock::time_point t_end, pt_end;
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525
  		size_t t_batch;																//number of milliseconds to process a batch
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  		size_t t_total = 0;														//total time for operation
  		size_t pt_total = 0;													//total time spent processing data
  		size_t rt_total = 0;													//total time spent reading data
  		size_t wt_total = 0;
  		size_t dr = 0;
  		
  		rt_total += readlines(src[0], 0, N[0]);					//read the first batch into the 0 source buffer
  		y_load += N[0];											//increment the loaded slice counter
  		int b = 1;												//initialize the double buffer to 0
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  		while(y_proc < Y()){													//while there are still slices to be processed
  			t_start = std::chrono::high_resolution_clock::now();					//start the timer for this batch
  			if(y_load < Y()){													//if there are still slices to be loaded, load them
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  				//if(y_proc > 0){
  					
  					
  				//}
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  				if(y_load + N[b] > Y()) N[b] = Y() - y_load;					//if the next batch would process more than the total slices, adjust the batch size
  				rthread = std::async(std::launch::async, &stim::bsq<T>::readlines, this, src[b], y_load, N[b]);
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  				//rt_total += rthread.get();
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  				y_load += N[b];													//increment the number of loaded slices
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  			}
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  			b = !b;																//swap the double-buffer
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  			pt_total += binary<T>::permute(dst[b], src[b], X(), N[b], Z(), 2, 0, 1);		//permute the batch to a BIL file
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  			wt_total += writeblock(&target, dst[b], N[b] * slice_bytes);			//write the permuted data to the output file
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  			y_proc += N[b];														//increment the counter of processed pixels
  			if(PROGRESS) progress = (double)( y_proc + 1 ) / Y() * 100;			//increment the progress counter based on the number of processed pixels
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  			if(y_proc < Y()) rt_total += rthread.get();					//if a new batch was set to load, make sure it loads after calculations
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  			t_end = std::chrono::high_resolution_clock::now();
  			t_batch = std::chrono::duration_cast<std::chrono::milliseconds>(t_end-t_start).count();
  			t_total += t_batch;
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  			if(OPTIMIZATION)
  				N[b] = O.update(N[!b] * slice_bytes, t_batch, binary<T>::data_rate, VERBOSE);					//set the batch size based on optimization
  			//binary<T>::data_rate = dr;
  			//std::cout<<"New N = "<<N[!b]<<" selected with "<<(double)data_rate / 1000000<<" MB/s"<<std::endl;
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  		}
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  		free(src[0]);															//free buffer resources
  		free(src[1]);
  		free(dst[0]);
  		free(dst[1]);
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  		if(VERBOSE){
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  			std::cout<<"total time to execute bsq::bip(): "<<t_total<<" ms"<<std::endl;
  			std::cout<<"     total time spent processing: "<<pt_total<<" ms"<<std::endl;
  			std::cout<<"        total time spent reading: "<<rt_total<<" ms"<<std::endl;
  			std::cout<<"        total time spent writing: "<<wt_total<<" ms"<<std::endl;
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  		}
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  		return true;															//return true
  	}
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  	/// Return a baseline corrected band given two adjacent baseline points and their bands. The result is stored in a pre-allocated array.
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  	/// @param lb is the label value for the left baseline point
  	/// @param rb is the label value for the right baseline point
  	/// @param lp is a pointer to an array holding the band image for the left baseline point
  	/// @param rp is a pointer to an array holding the band image for the right baseline point
  	/// @param wavelength is the label value for the requested baseline-corrected band
  	/// @param result is a pointer to a pre-allocated array at least X * Y * sizeof(T) in size.
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585
  	bool baseline_band(double lb, double rb, T* lp, T* rp, double wavelength, T* result){
  
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  		unsigned long long XY = X() * Y();
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  		band(result, wavelength);		//get band
  
  		//perform the baseline correction
  		double r = (double) (wavelength - lb) / (double) (rb - lb);
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  		for(unsigned long long i=0; i < XY; i++){
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  			result[i] =(T) (result[i] - (rp[i] - lp[i]) * r - lp[i] );
  		}
  		return true;
  	}
517876d6   heziqi   metrics finished ...
596
  
a08c98c3   David Mayerich   finished document...
597
  	/// Return a baseline corrected band given two adjacent baseline points. The result is stored in a pre-allocated array.
77060b79   David Mayerich   started DOxygen d...
598
599
600
601
602
  
  	/// @param lb is the label value for the left baseline point
  	/// @param rb is the label value for the right baseline point
  	/// @param bandwavelength is the label value for the desired baseline-corrected band
  	/// @param result is a pointer to a pre-allocated array at least X * Y * sizeof(T) in size.
70407ea9   heziqi   Ziqi completed he...
603
  	bool height(double lb, double rb, double bandwavelength, T* result){
20c212c0   heziqi   Ziqi added functi...
604
605
606
  
  		T* lp;
  		T* rp;
9d3ba0b1   David Mayerich   added stim::hsi a...
607
608
  		unsigned long long XY = X() * Y();
  		unsigned long long S = XY * sizeof(T);
70407ea9   heziqi   Ziqi completed he...
609
610
  		lp = (T*) malloc(S);			//memory allocation
  		rp = (T*) malloc(S);
20c212c0   heziqi   Ziqi added functi...
611
  
70407ea9   heziqi   Ziqi completed he...
612
  		band(lp, lb);
43dec788   David Mayerich   added code for si...
613
  		band(rp, rb);
20c212c0   heziqi   Ziqi added functi...
614
615
616
  
  		baseline_band(lb, rb, lp, rp, bandwavelength, result);
  
517876d6   heziqi   metrics finished ...
617
618
  		free(lp);
  		free(rp);
20c212c0   heziqi   Ziqi added functi...
619
620
621
  		return true;
  	}
  
c359422d   heziqi   Ziqi added functi...
622
  
a08c98c3   David Mayerich   finished document...
623
  	/// Calculate the area under the spectrum between two specified points and stores the result in a pre-allocated array.
77060b79   David Mayerich   started DOxygen d...
624
625
626
627
628
629
  
  	/// @param lb is the label value for the left baseline point
  	/// @param rb is the label value for the right baseline point
  	/// @param lab is the label value for the left bound (start of the integration)
  	/// @param rab is the label value for the right bound (end of the integration)
  	/// @param result is a pointer to a pre-allocated array at least X * Y * sizeof(T) in size
70407ea9   heziqi   Ziqi completed he...
630
  	bool area(double lb, double rb, double lab, double rab, T* result){
20c212c0   heziqi   Ziqi added functi...
631
632
633
634
635
  
  		T* lp;	//left band pointer
  		T* rp;	//right band pointer
  		T* cur;		//current band 1
  		T* cur2;	//current band 2
20c212c0   heziqi   Ziqi added functi...
636
  
9d3ba0b1   David Mayerich   added stim::hsi a...
637
638
  		unsigned long long XY = X() * Y();
  		unsigned long long S = XY * sizeof(T);
20c212c0   heziqi   Ziqi added functi...
639
640
641
642
643
  
  		lp = (T*) malloc(S);			//memory allocation
  		rp = (T*) malloc(S);
  		cur = (T*) malloc(S);
  		cur2 = (T*) malloc(S);
20c212c0   heziqi   Ziqi added functi...
644
  
ba51ae6a   David Mayerich   fixed metric calc...
645
  		//find the wavelength position in the whole band
9d3ba0b1   David Mayerich   added stim::hsi a...
646
647
648
  		unsigned long long n = w.size();
  		unsigned long long ai = 0;		//left bound position
  		unsigned long long bi = n - 1;		//right bound position
20c212c0   heziqi   Ziqi added functi...
649
650
651
652
653
  
  
  
  		//to make sure the left and the right bound are in the bandwidth
  		if (lb < w[0] || rb < w[0] || lb > w[n-1] || rb >w[n-1]){
11ff9d7e   David Mayerich   improved user out...
654
655
656
657
658
659
660
661
662
663
664
665
666
  			if (lb < w[0]) {
  				std::cout << "bsq::area ERROR - left bound " << lb << " is below the minimum available wavelength " << w[0] << std::endl;
  			}
  			if (rb < w[0]) {
  				std::cout << "bsq::area ERROR - right bound " << rb << " is below the minimum available wavelength " << w[0] << std::endl;
  			}
  			if (lb > w[n - 1]) { 
  				std::cout << "bsq::area ERROR - left bound " << lb << " is above the maximum available wavelength " << w[n - 1] << std::endl; 
  			}
  			if (rb > w[n - 1]) { 
  				std::cout << "bsq::area ERROR - right bound " << rb << " is above the maximum available wavelength " << w[0] << std::endl; 
  			}
  			return false;
20c212c0   heziqi   Ziqi added functi...
667
  		}
ba51ae6a   David Mayerich   fixed metric calc...
668
  		//to make sure right bound is bigger than left bound
20c212c0   heziqi   Ziqi added functi...
669
  		else if(lb > rb){
11ff9d7e   David Mayerich   improved user out...
670
671
  			std::cout << "bsq::area ERROR - right bound " << rb << " should be larger than left bound " << lb << std::endl;
  			return false;
20c212c0   heziqi   Ziqi added functi...
672
673
  		}
  
ba51ae6a   David Mayerich   fixed metric calc...
674
  		//find the indices of the left and right baseline points
1a224b6a   David Mayerich   fixed linux compa...
675
  		while (lab >= w[ai]){
20c212c0   heziqi   Ziqi added functi...
676
677
  			ai++;
  		}
70407ea9   heziqi   Ziqi completed he...
678
  		while (rab <= w[bi]){
20c212c0   heziqi   Ziqi added functi...
679
680
681
  			bi--;
  		}
  
ba51ae6a   David Mayerich   fixed metric calc...
682
  		band(lp, lb);						//get the band images for the left and right baseline points
20c212c0   heziqi   Ziqi added functi...
683
684
  		band(rp, rb);
  
ba51ae6a   David Mayerich   fixed metric calc...
685
686
687
688
689
690
691
  		// calculate the average value of the indexed region
  		memset(result, 0, S);								//initialize the integral to zero (0)
  
  		//integrate the region between the specified bands and the closest indexed band
  		//		this integrates the "tails" of the spectrum that lie outside the main indexed region
  		baseline_band(lb, rb, lp, rp, rab, cur2);		//calculate the image for the right-most band in the integral
  		baseline_band(lb, rb, lp, rp, w[bi], cur);		//calculate the image for the right-most indexed band
9d3ba0b1   David Mayerich   added stim::hsi a...
692
693
  		for(unsigned long long j = 0; j < XY; j++){
  			result[j] += (T)((rab - w[bi]) * ((double)cur[j] + (double)cur2[j]) / 2.0);
20c212c0   heziqi   Ziqi added functi...
694
  		}
70407ea9   heziqi   Ziqi completed he...
695
696
  		baseline_band(lb, rb, lp, rp, lab, cur2);		//beginnning part
  		baseline_band(lb, rb, lp, rp, w[ai], cur);
9d3ba0b1   David Mayerich   added stim::hsi a...
697
698
  		for(unsigned long long j = 0; j < XY; j++){
  			result[j] += (T)((w[ai] - lab) * ((double)cur[j] + (double)cur2[j]) / 2.0);
20c212c0   heziqi   Ziqi added functi...
699
  		}
70407ea9   heziqi   Ziqi completed he...
700
  
ba51ae6a   David Mayerich   fixed metric calc...
701
  		//integrate the main indexed region
20c212c0   heziqi   Ziqi added functi...
702
  		ai++;
ba51ae6a   David Mayerich   fixed metric calc...
703
  		for(unsigned long long i = ai; i <= bi ;i++)	//for each band in the integral
20c212c0   heziqi   Ziqi added functi...
704
  		{
ba51ae6a   David Mayerich   fixed metric calc...
705
706
  			baseline_band(lb, rb, lp, rp, w[ai], cur2);	//get the baselined band
  			for(unsigned long long j = 0; j < XY; j++){	//for each pixel in that band
9d3ba0b1   David Mayerich   added stim::hsi a...
707
  				result[j] += (T)((w[ai] - w[ai-1]) * ((double)cur[j] + (double)cur2[j]) / 2.0);
20c212c0   heziqi   Ziqi added functi...
708
709
710
  			}
  			std::swap(cur,cur2);		//swap the band pointers
  		}
70407ea9   heziqi   Ziqi completed he...
711
  
517876d6   heziqi   metrics finished ...
712
713
714
715
  		free(lp);
  		free(rp);
  		free(cur);
  		free(cur2);
20c212c0   heziqi   Ziqi added functi...
716
717
718
  		return true;
  	}
  
a08c98c3   David Mayerich   finished document...
719
  	/// Compute the ratio of two baseline-corrected peaks. The result is stored in a pre-allocated array.
77060b79   David Mayerich   started DOxygen d...
720
721
722
723
724
725
726
727
  
  	/// @param lb1 is the label value for the left baseline point for the first peak (numerator)
  	/// @param rb1 is the label value for the right baseline point for the first peak (numerator)
  	/// @param pos1 is the label value for the first peak (numerator) position
  	/// @param lb2 is the label value for the left baseline point for the second peak (denominator)
  	/// @param rb2 is the label value for the right baseline point for the second peak (denominator)
  	/// @param pos2 is the label value for the second peak (denominator) position
  	/// @param result is a pointer to a pre-allocated array at least X * Y * sizeof(T) in size
ba51ae6a   David Mayerich   fixed metric calc...
728
  	bool ph_to_ph(T* result, double lb1, double rb1, double pos1, double lb2, double rb2, double pos2, unsigned char* mask = NULL){
20c212c0   heziqi   Ziqi added functi...
729
  
ba51ae6a   David Mayerich   fixed metric calc...
730
731
732
733
  		size_t XYbytes = X() * Y() * sizeof(T);			//calculate the size of the band image (in bytes)
  
  		T* p1 = (T*)malloc(XYbytes);					//allocate space for both bands in the ratio
  		T* p2 = (T*)malloc(XYbytes);
43dec788   David Mayerich   added code for si...
734
  
ba51ae6a   David Mayerich   fixed metric calc...
735
  		memset(result, 0, XYbytes);						//initialize the ratio to zero
70407ea9   heziqi   Ziqi completed he...
736
737
738
739
  		//get the two peak band
  		height(lb1, rb1, pos1, p1);
  		height(lb2, rb2, pos2, p2);
  		//calculate the ratio in result
9d3ba0b1   David Mayerich   added stim::hsi a...
740
  		for(unsigned long long i = 0; i < X() * Y(); i++){
ba51ae6a   David Mayerich   fixed metric calc...
741
  			if(mask == NULL || mask[i]){
70407ea9   heziqi   Ziqi completed he...
742
  				result[i] = p1[i] / p2[i];
ba51ae6a   David Mayerich   fixed metric calc...
743
  			}
70407ea9   heziqi   Ziqi completed he...
744
  		}
517876d6   heziqi   metrics finished ...
745
746
747
  
  		free(p1);
  		free(p2);
43dec788   David Mayerich   added code for si...
748
  		return true;
70407ea9   heziqi   Ziqi completed he...
749
  	}
43dec788   David Mayerich   added code for si...
750
  
a08c98c3   David Mayerich   finished document...
751
  	/// Compute the ratio between a peak area and peak height.
77060b79   David Mayerich   started DOxygen d...
752
753
754
755
756
757
758
759
  
  	/// @param lb1 is the label value for the left baseline point for the first peak (numerator)
  	/// @param rb1 is the label value for the right baseline point for the first peak (numerator)
  	/// @param pos1 is the label value for the first peak (numerator) position
  	/// @param lb2 is the label value for the left baseline point for the second peak (denominator)
  	/// @param rb2 is the label value for the right baseline point for the second peak (denominator)
  	/// @param pos2 is the label value for the second peak (denominator) position
  	/// @param result is a pointer to a pre-allocated array at least X * Y * sizeof(T) in size
ba51ae6a   David Mayerich   fixed metric calc...
760
761
  	bool pa_to_ph(T* result, double lb1, double rb1, double lab1, double rab1,
  					double lb2, double rb2, double pos, unsigned char* mask = NULL){
43dec788   David Mayerich   added code for si...
762
  
ba51ae6a   David Mayerich   fixed metric calc...
763
764
765
  		size_t bytes = X() * Y() * sizeof(T);
  		T* p1 = (T*)malloc(bytes);							//allocate space for both ratio components
  		T* p2 = (T*)malloc(bytes);
43dec788   David Mayerich   added code for si...
766
  
ba51ae6a   David Mayerich   fixed metric calc...
767
  		memset(result, 0, bytes);							//initialize the ratio to zero
70407ea9   heziqi   Ziqi completed he...
768
769
770
771
  		//get the area and the peak band
  		area(lb1, rb1, lab1, rab1, p1);
  		height(lb2, rb2, pos, p2);
  		//calculate the ratio in result
9d3ba0b1   David Mayerich   added stim::hsi a...
772
  		for(unsigned long long i = 0; i < X() * Y(); i++){
ba51ae6a   David Mayerich   fixed metric calc...
773
  			if(mask == NULL || mask[i])
70407ea9   heziqi   Ziqi completed he...
774
775
  				result[i] = p1[i] / p2[i];
  		}
517876d6   heziqi   metrics finished ...
776
777
778
  
  		free(p1);
  		free(p2);
43dec788   David Mayerich   added code for si...
779
780
781
  		return true;
  	}
  
a08c98c3   David Mayerich   finished document...
782
  	/// Compute the ratio between two peak areas.
0722eb39   David Mayerich   further updates t...
783
784
785
786
787
788
789
790
  
  	/// @param lb1 is the label value for the left baseline point for the first peak (numerator)
  	/// @param rb1 is the label value for the right baseline point for the first peak (numerator)
  	/// @param lab1 is the label value for the left bound (start of the integration) of the first peak (numerator)
  	/// @param rab1 is the label value for the right bound (end of the integration) of the first peak (numerator)
  	/// @param lb2 is the label value for the left baseline point for the second peak (denominator)
  	/// @param rb2 is the label value for the right baseline point for the second peak (denominator)
  	/// @param lab2 is the label value for the left bound (start of the integration) of the second peak (denominator)
43dec788   David Mayerich   added code for si...
791
  	/// @param rab2 is the label value for the right bound (end of the integration) of the second peak (denominator)
0722eb39   David Mayerich   further updates t...
792
  	/// @param result is a pointer to a pre-allocated array at least X * Y * sizeof(T) in size
ba51ae6a   David Mayerich   fixed metric calc...
793
794
  	bool pa_to_pa(T* result, double lb1, double rb1, double lab1, double rab1,
  					double lb2, double rb2, double lab2, double rab2, unsigned char* mask = NULL){
43dec788   David Mayerich   added code for si...
795
  
ba51ae6a   David Mayerich   fixed metric calc...
796
797
798
  		size_t bytes = X() * Y() * sizeof(T);
  		T* p1 = (T*)malloc(bytes);						//allocate space for each of the operands
  		T* p2 = (T*)malloc(bytes);
43dec788   David Mayerich   added code for si...
799
  
ba51ae6a   David Mayerich   fixed metric calc...
800
  		memset(result, 0, bytes);						//initialize the ratio result to zero (0)
70407ea9   heziqi   Ziqi completed he...
801
802
803
804
  		//get the area and the peak band
  		area(lb1, rb1, lab1, rab1, p1);
  		area(lb2, rb2, lab2, rab2, p2);
  		//calculate the ratio in result
9d3ba0b1   David Mayerich   added stim::hsi a...
805
  		for(unsigned long long i = 0; i < X() * Y(); i++){
ba51ae6a   David Mayerich   fixed metric calc...
806
807
  			if(mask == NULL || mask[i])						//if the pixel is masked
  				result[i] = p1[i] / p2[i];					//calculate the ratio
70407ea9   heziqi   Ziqi completed he...
808
  		}
517876d6   heziqi   metrics finished ...
809
810
811
  
  		free(p1);
  		free(p2);
43dec788   David Mayerich   added code for si...
812
813
  		return true;
  	}
517876d6   heziqi   metrics finished ...
814
  
ba51ae6a   David Mayerich   fixed metric calc...
815
  	/// Compute the definite integral of a baseline corrected peak weighted by the corresponding wavelength
0722eb39   David Mayerich   further updates t...
816
817
818
819
820
821
  
  	/// @param lb is the label value for the left baseline point
  	/// @param rb is the label value for the right baseline point
  	/// @param lab is the label for the start of the definite integral
  	/// @param rab is the label for the end of the definite integral
  	/// @param result is a pointer to a pre-allocated array at least X * Y * sizeof(T) in size
517876d6   heziqi   metrics finished ...
822
823
824
825
826
827
  	bool x_area(double lb, double rb, double lab, double rab, T* result){
  		T* lp;	//left band pointer
  		T* rp;	//right band pointer
  		T* cur;		//current band 1
  		T* cur2;	//current band 2
  
9d3ba0b1   David Mayerich   added stim::hsi a...
828
829
  		unsigned long long XY = X() * Y();
  		unsigned long long S = XY * sizeof(T);
517876d6   heziqi   metrics finished ...
830
831
832
833
834
835
  
  		lp = (T*) malloc(S);			//memory allocation
  		rp = (T*) malloc(S);
  		cur = (T*) malloc(S);
  		cur2 = (T*) malloc(S);
  
517876d6   heziqi   metrics finished ...
836
  		//find the wavelenght position in the whole band
9d3ba0b1   David Mayerich   added stim::hsi a...
837
838
839
  		unsigned long long n = w.size();
  		unsigned long long ai = 0;		//left bound position
  		unsigned long long bi = n - 1;		//right bound position
517876d6   heziqi   metrics finished ...
840
841
842
843
844
845
846
847
848
849
850
851
852
853
854
855
856
857
858
859
860
861
862
  
  		//to make sure the left and the right bound are in the bandwidth
  		if (lb < w[0] || rb < w[0] || lb > w[n-1] || rb >w[n-1]){
  			std::cout<<"ERROR: left bound or right bound out of bandwidth"<<std::endl;
  			exit(1);
  		}
  		//to make sure rigth bound is bigger than left bound
  		else if(lb > rb){
  			std::cout<<"ERROR: right bound should be bigger than left bound"<<std::endl;
  			exit(1);
  		}
  
  		//get the position of lb and rb
  		while (lab >= w[ai]){
  			ai++;
  		}
  		while (rab <= w[bi]){
  			bi--;
  		}
  
  		band(lp, lb);
  		band(rp, rb);
  
ba51ae6a   David Mayerich   fixed metric calc...
863
864
  		memset(result, (char)0, S);						//initialize the integral to zero (0)
  
517876d6   heziqi   metrics finished ...
865
866
867
  		//calculate the beginning and the ending part
  		baseline_band(lb, rb, lp, rp, rab, cur2);		//ending part
  		baseline_band(lb, rb, lp, rp, w[bi], cur);
9d3ba0b1   David Mayerich   added stim::hsi a...
868
869
  		for(unsigned long long j = 0; j < XY; j++){
  			result[j] += (T)((rab - w[bi]) * (rab + w[bi]) * ((double)cur[j] + (double)cur2[j]) / 4.0);
517876d6   heziqi   metrics finished ...
870
871
872
  		}
  		baseline_band(lb, rb, lp, rp, lab, cur2);		//beginnning part
  		baseline_band(lb, rb, lp, rp, w[ai], cur);
9d3ba0b1   David Mayerich   added stim::hsi a...
873
874
  		for(unsigned long long j = 0; j < XY; j++){
  			result[j] += (T)((w[ai] - lab) * (w[ai] + lab) * ((double)cur[j] + (double)cur2[j]) / 4.0);
517876d6   heziqi   metrics finished ...
875
876
877
878
  		}
  
  		//calculate f(x) times x
  		ai++;
ba51ae6a   David Mayerich   fixed metric calc...
879
  		for(unsigned long long i = ai; i <= bi ;i++){
517876d6   heziqi   metrics finished ...
880
  			baseline_band(lb, rb, lp, rp, w[ai], cur2);
ba51ae6a   David Mayerich   fixed metric calc...
881
882
883
  			for(unsigned long long j = 0; j < XY; j++){
  				T v = (T)((w[ai] - w[ai-1]) * (w[ai] + w[ai-1]) * ((double)cur[j] + (double)cur2[j]) / 4.0);
  				result[j] += v;
517876d6   heziqi   metrics finished ...
884
885
886
887
888
889
890
891
892
893
894
  			}
  			std::swap(cur,cur2);		//swap the band pointers
  		}
  
  		free(lp);
  		free(rp);
  		free(cur);
  		free(cur2);
  		return true;
  	}
  
a08c98c3   David Mayerich   finished document...
895
  	/// Compute the centroid of a baseline corrected peak.
ba51ae6a   David Mayerich   fixed metric calc...
896
  	/// Note that the values for the centroid can be outside of [lab, rab] if the spectrum goes negative.
0722eb39   David Mayerich   further updates t...
897
898
899
900
901
902
  
  	/// @param lb is the label value for the left baseline point
  	/// @param rb is the label value for the right baseline point
  	/// @param lab is the label for the start of the peak
  	/// @param rab is the label for the end of the peak
  	/// @param result is a pointer to a pre-allocated array at least X * Y * sizeof(T) in size
ba51ae6a   David Mayerich   fixed metric calc...
903
904
905
  	bool centroid(T* result, double lb, double rb, double lab, double rab, unsigned char* mask = NULL){
  		size_t bytes = X() * Y() * sizeof(T);		//calculate the number of bytes in a band image
  		T* p1 = (T*)malloc(X() * Y() * sizeof(T));	//allocate space for both operands
43dec788   David Mayerich   added code for si...
906
907
  		T* p2 = (T*)malloc(X() * Y() * sizeof(T));
  
ba51ae6a   David Mayerich   fixed metric calc...
908
  		memset(result, 0, bytes);					//initialize the ratio result to zero (0)
517876d6   heziqi   metrics finished ...
909
910
911
912
  		//get the area and the peak band
  		x_area(lb, rb, lab, rab, p1);
  		area(lb, rb, lab, rab, p2);
  		//calculate the ratio in result
9d3ba0b1   David Mayerich   added stim::hsi a...
913
  		for(unsigned long long i = 0; i < X() * Y(); i++){
ba51ae6a   David Mayerich   fixed metric calc...
914
  			if(mask == NULL || mask[i]){
517876d6   heziqi   metrics finished ...
915
  				result[i] = p1[i] / p2[i];
ba51ae6a   David Mayerich   fixed metric calc...
916
  			}
517876d6   heziqi   metrics finished ...
917
918
919
920
  		}
  
  		free(p1);
  		free(p2);
43dec788   David Mayerich   added code for si...
921
  		return true;
517876d6   heziqi   metrics finished ...
922
923
  	}
  
a08c98c3   David Mayerich   finished document...
924
  	/// Create a mask based on a given band and threshold value.
0722eb39   David Mayerich   further updates t...
925
926
927
928
929
930
  
  	/// All pixels in the
  	/// specified band greater than the threshold are true and all pixels less than the threshold are false.
  	/// @param mask_band is the band used to specify the mask
  	/// @param threshold is the threshold used to determine if the mask value is true or false
  	/// @param p is a pointer to a pre-allocated array at least X * Y in size
e37ce7bf   David Mayerich   added the ability...
931
932
  	bool build_mask(unsigned char* out_mask, double mask_band, double lower, double upper, unsigned char* mask = NULL, bool PROGRESS = false){
  		memset(out_mask, 0, X() * Y());							//initialize the mask to zero
4a6f666c   heziqi   Added mask method
933
  
724ec347   David Mayerich   simplified the EN...
934
  		T* temp = (T*)malloc(X() * Y() * sizeof(T));		//allocate memory for the certain band
4a6f666c   heziqi   Added mask method
935
936
  		band(temp, mask_band);
  
9d3ba0b1   David Mayerich   added stim::hsi a...
937
  		for (unsigned long long i = 0; i < X() * Y(); i++) {
e37ce7bf   David Mayerich   added the ability...
938
939
940
941
942
943
944
  			if(mask == NULL || mask[i] != 0){
  				if(temp[i] > lower && temp[i] < upper){
  					out_mask[i] = 255;
  				}
  				else
  					out_mask[i] = 0;
  			}
798cea97   David Mayerich   added progress ba...
945
  
9d3ba0b1   David Mayerich   added stim::hsi a...
946
  			if(PROGRESS) progress = (double) (i+1) / (X() * Y()) * 100;
4a6f666c   heziqi   Added mask method
947
948
  		}
  
517876d6   heziqi   metrics finished ...
949
  		free(temp);
4a6f666c   heziqi   Added mask method
950
951
952
  		return true;
  
  	}
740f8cd2   heziqi   added apply_mask
953
  
a08c98c3   David Mayerich   finished document...
954
  	/// Apply a mask file to the BSQ image, setting all values outside the mask to zero.
0722eb39   David Mayerich   further updates t...
955
956
957
  
  	/// @param outfile is the name of the masked output file
  	/// @param p is a pointer to memory of size X * Y, where p(i) = 0 for pixels that will be set to zero.
6a46c8ff   David Mayerich   fixed bugs in app...
958
  	bool apply_mask(std::string outfile, unsigned char* p, bool PROGRESS = false){
740f8cd2   heziqi   added apply_mask
959
960
961
  
  		std::ofstream target(outfile.c_str(), std::ios::binary);
  
9d3ba0b1   David Mayerich   added stim::hsi a...
962
963
  		unsigned long long XY = X() * Y();		//calculate number of a band
  		unsigned long long L = XY * sizeof(T);
740f8cd2   heziqi   added apply_mask
964
965
966
  
  		T * temp = (T*)malloc(L);
  
9d3ba0b1   David Mayerich   added stim::hsi a...
967
  		for (unsigned long long i = 0; i < Z(); i++)			//for each spectral bin
740f8cd2   heziqi   added apply_mask
968
  		{
e843658b   Brad Deutsch   Previous push did...
969
  			band_index(temp, i);					//get the specified band (by index)
9d3ba0b1   David Mayerich   added stim::hsi a...
970
  			for ( unsigned long long j = 0; j < XY; j++)		// for each pixel
740f8cd2   heziqi   added apply_mask
971
  			{
e843658b   Brad Deutsch   Previous push did...
972
973
  				if(p[j] == 0){						//if the mask is 0 at that pixel
  					temp[j] = 0;					//set temp to zero
740f8cd2   heziqi   added apply_mask
974
975
976
977
978
  				}
  				else{
  					continue;
  				}
  			}
e843658b   Brad Deutsch   Previous push did...
979
  			target.write(reinterpret_cast<const char*>(temp), L);   //write the XY slice at that band to disk
6a46c8ff   David Mayerich   fixed bugs in app...
980
  			if(PROGRESS) progress = (double)(i + 1) / (double)Z() * 100;
740f8cd2   heziqi   added apply_mask
981
982
983
984
985
986
  		}
  		target.close();
  		free(temp);
  		return true;
  	}
  
3d0b6243   David Mayerich   fixed hsiproc bug...
987
988
989
990
991
  	/// Copies all spectra corresponding to nonzero values of a mask into a pre-allocated matrix of size (B x P)
  	///		where P is the number of masked pixels and B is the number of bands. The allocated memory can be accessed
  	///		using the following indexing: i = p*B + b
  	/// @param matrix is the destination for the pixel data
  	/// @param mask is the mask
814eb271   David Mayerich   fixed problems wi...
992
  	bool sift(T* matrix, unsigned char* mask = NULL, bool PROGRESS = false){
43dec788   David Mayerich   added code for si...
993
994
  		unsigned long long XY = X() * Y(); 					//Number of XY pixels
  		unsigned long long L = XY * sizeof(T); 				//size of XY plane (in bytes)
3d0b6243   David Mayerich   fixed hsiproc bug...
995
996
  
  		//calculate the number of pixels in the mask
a2bf1d08   David Mayerich   general bug fixes...
997
  		//unsigned long long P = nnz(mask);
eb5dfb2b   David Mayerich   fixed linux compa...
998
  
3d0b6243   David Mayerich   fixed hsiproc bug...
999
1000
1001
1002
1003
1004
1005
1006
1007
1008
1009
  		T* band_image = (T*) malloc( XY * sizeof(T));		//allocate space for a single band
  
  		unsigned long long i;								//pixel index into the sifted array
  		for(unsigned long long b = 0; b < Z(); b++){		//for each band in the data set
  			band_index(band_image, b);						//retrieve an image of that band
  
  			i = 0;
  			for(unsigned long long xy = 0; xy < XY; xy++){
  				if(mask == NULL || mask[xy] != 0){				//if the pixel is valid
  					matrix[i*Z() + b] = band_image[xy];			//copy it to the appropriate point in the values[] array
  					i++;
43dec788   David Mayerich   added code for si...
1010
  				}
78578186   David Mayerich   fixed a bug in th...
1011
  				if(PROGRESS) progress = (double)(b * XY + xy+1) / (double)(XY * Z()) * 100;
43dec788   David Mayerich   added code for si...
1012
1013
  			}
  		}
eb5dfb2b   David Mayerich   fixed linux compa...
1014
  
43dec788   David Mayerich   added code for si...
1015
1016
  		return true;
  	}
1a224b6a   David Mayerich   fixed linux compa...
1017
  
2fcab4f0   David Mayerich   added unsifting f...
1018
  	/// Saves to disk only those spectra corresponding to mask values != 0
43dec788   David Mayerich   added code for si...
1019
1020
  	/// @param outfile is the name of the sifted ENVI file to be written to disk
  	/// @param unsigned char* p is the mask file used for sifting
c1078e19   David Mayerich   HSIproc bug fixes...
1021
  	bool sift(std::string outfile, unsigned char* p, bool PROGRESS = false){
e843658b   Brad Deutsch   Previous push did...
1022
1023
  		std::ofstream target(outfile.c_str(), std::ios::binary);
  		// open a band (XY plane)
9d3ba0b1   David Mayerich   added stim::hsi a...
1024
1025
  		unsigned long long XY = X() * Y(); //Number of XY pixels
  		unsigned long long L = XY * sizeof(T); //size of XY pixels
c1078e19   David Mayerich   HSIproc bug fixes...
1026
  		unsigned long long B = Z();
e843658b   Brad Deutsch   Previous push did...
1027
1028
1029
1030
  
  		T * temp = (T*)malloc(L); //allocate memory for a band
  		T * temp_vox = (T*)malloc(sizeof(T)); //allocate memory for one voxel
  
9d3ba0b1   David Mayerich   added stim::hsi a...
1031
  		for (unsigned long long i = 0; i < B; i++)			//for each spectral bin
e843658b   Brad Deutsch   Previous push did...
1032
1033
  		{
  			band_index(temp, i);					//get the specified band (XY sheet by index)
9d3ba0b1   David Mayerich   added stim::hsi a...
1034
  			for (unsigned long long j = 0; j < XY; j++)		// for each pixel
e843658b   Brad Deutsch   Previous push did...
1035
1036
1037
1038
1039
1040
1041
  			{
  				if (p[j] != 0){						//if the mask is != 0 at that pixel
  					temp_vox[0] = temp[j];
  					target.write(reinterpret_cast<const char*>(temp_vox), sizeof(T));   //write the XY slice at that band to disk
  				}
  				else{
  					continue;
1a224b6a   David Mayerich   fixed linux compa...
1042
  				}
e843658b   Brad Deutsch   Previous push did...
1043
  			}
c1078e19   David Mayerich   HSIproc bug fixes...
1044
  			if(PROGRESS) progress = (double)(i+1)/ B * 100;
e843658b   Brad Deutsch   Previous push did...
1045
1046
1047
  		}
  		target.close();
  		free(temp);
3150c537   David Mayerich   added further pro...
1048
  
63fc1df8   David Mayerich   added an inverse ...
1049
  		progress = 100;
3150c537   David Mayerich   added further pro...
1050
  
e843658b   Brad Deutsch   Previous push did...
1051
1052
1053
  		return true;
  	}
  
2fcab4f0   David Mayerich   added unsifting f...
1054
  	/// Generates a spectral image from a matrix of spectral values in lexicographic order and a mask
a2bf1d08   David Mayerich   general bug fixes...
1055
  	bool unsift(std::string outfile, unsigned char* p, unsigned long long samples, unsigned long long lines, bool PROGRESS = false){
2fcab4f0   David Mayerich   added unsifting f...
1056
1057
1058
1059
1060
1061
1062
1063
1064
1065
1066
1067
1068
  
  		//create a binary output stream
  		std::ofstream target(outfile.c_str(), std::ios::binary);
  
  		//make sure that there's only one line
  		if(Y() != 1){
  			std::cout<<"ERROR in stim::bsq::sift() - number of lines does not equal 1"<<std::endl;
  			return false;
  		}
  
  		std::cout<<"started sifting"<<std::endl;
  
  		//get the number of pixels and bands in the input image
9d3ba0b1   David Mayerich   added stim::hsi a...
1069
1070
1071
  		unsigned long long P = X(); 					//Number of pixels
  		unsigned long long B = Z();					//number of bands
  		unsigned long long XY = samples * lines;		//total number of pixels in an unsifted image
2fcab4f0   David Mayerich   added unsifting f...
1072
1073
1074
1075
1076
1077
1078
1079
  
  		// allocate memory for a sifted band
  		T * sifted = (T*)malloc(P * sizeof(T)); //allocate memory for a band
  
  		//allocate memory for an unsifted band image
  		T* unsifted = (T*) malloc(XY * sizeof(T));
  
  		//for each band
9d3ba0b1   David Mayerich   added stim::hsi a...
1080
  		for(unsigned long long b = 0; b < B; b++){
2fcab4f0   David Mayerich   added unsifting f...
1081
1082
  
  			//set the unsifted index value to zero
9d3ba0b1   David Mayerich   added stim::hsi a...
1083
  			unsigned long long i = 0;
2fcab4f0   David Mayerich   added unsifting f...
1084
1085
1086
1087
1088
  
  			//retrieve the sifted band (masked pixels only)
  			band_index(sifted, b);
  
  			//for each pixel in the final image (treat it as a 1D image)
9d3ba0b1   David Mayerich   added stim::hsi a...
1089
  			for(unsigned long long xi = 0; xi < XY; xi++){
2fcab4f0   David Mayerich   added unsifting f...
1090
1091
1092
1093
1094
1095
  				if( p[xi] == 0 )
  					unsifted[xi] = 0;
  				else{
  					unsifted[xi] = sifted[i];
  					i++;
  				}
3150c537   David Mayerich   added further pro...
1096
  				//std::cout<<xi<<"/"<<XY<<",   "<<b<<"/"<<B<<std::endl;
a2bf1d08   David Mayerich   general bug fixes...
1097
  				if(PROGRESS) progress = (double)((b + 1) * XY + xi + 1) / (B * XY) * 100;
2fcab4f0   David Mayerich   added unsifting f...
1098
  			}
3150c537   David Mayerich   added further pro...
1099
  			//std::cout<<b*XY<<"/"<<B*XY<<"      "<<B<<"-"<<XY<<std::endl;
2fcab4f0   David Mayerich   added unsifting f...
1100
1101
1102
1103
  			//write the band image to disk
  			target.write(reinterpret_cast<const char*>(unsifted), sizeof(T) * XY);
  		}
  
3150c537   David Mayerich   added further pro...
1104
  		//std::cout<<"unsifted"<<std::endl;
a2bf1d08   David Mayerich   general bug fixes...
1105
  		//progress = 100;
3150c537   David Mayerich   added further pro...
1106
  
2fcab4f0   David Mayerich   added unsifting f...
1107
1108
1109
  		return true;
  	}
  
e843658b   Brad Deutsch   Previous push did...
1110
  
a08c98c3   David Mayerich   finished document...
1111
  	/// Calculate the mean band value (average along B) at each pixel location.
0722eb39   David Mayerich   further updates t...
1112
1113
  
  	/// @param p is a pointer to memory of size X * Y * sizeof(T) that will store the band averages.
a43c4fe1   heziqi   Added crop in env...
1114
  	bool band_avg(T* p){
724ec347   David Mayerich   simplified the EN...
1115
  		unsigned long long XY = X() * Y();
a43c4fe1   heziqi   Added crop in env...
1116
1117
1118
  		T* temp = (T*)malloc(sizeof(T) * XY);
  		//initialize p
  		band_index(p, 0);
9d3ba0b1   David Mayerich   added stim::hsi a...
1119
  		for (unsigned long long j = 0; j < XY; j++){
724ec347   David Mayerich   simplified the EN...
1120
  			p[j] /= (T)Z();
a43c4fe1   heziqi   Added crop in env...
1121
1122
  		}
  		//get every band and add them all
9d3ba0b1   David Mayerich   added stim::hsi a...
1123
  		for (unsigned long long i = 1; i < Z(); i++){
a43c4fe1   heziqi   Added crop in env...
1124
  			band_index(temp, i);
9d3ba0b1   David Mayerich   added stim::hsi a...
1125
  			for (unsigned long long j = 0; j < XY; j++){
724ec347   David Mayerich   simplified the EN...
1126
  				p[j] += temp[j]/(T)Z();
a43c4fe1   heziqi   Added crop in env...
1127
1128
1129
1130
1131
1132
  			}
  		}
  		free(temp);
  		return true;
  	}
  
a08c98c3   David Mayerich   finished document...
1133
1134
1135
1136
  	/// Calculate the mean value for all masked (or valid) pixels in a band and returns the average spectrum
  
  	/// @param p is a pointer to pre-allocated memory of size [B * sizeof(T)] that stores the mean spectrum
  	/// @param mask is a pointer to memory of size [X * Y] that stores the mask value at each pixel location
35a7195f   David Mayerich   added median spec...
1137
  	bool mean_spectrum(double* m, double* std, unsigned char* mask = NULL, bool PROGRESS = false){
724ec347   David Mayerich   simplified the EN...
1138
  		unsigned long long XY = X() * Y();
35a7195f   David Mayerich   added median spec...
1139
  		unsigned long long count = nnz(mask);						//count will store the number of masked pixels
a43c4fe1   heziqi   Added crop in env...
1140
  		T* temp = (T*)malloc(sizeof(T) * XY);
35a7195f   David Mayerich   added median spec...
1141
  		
724ec347   David Mayerich   simplified the EN...
1142
  		//this loops goes through each band in B (Z())
a08c98c3   David Mayerich   finished document...
1143
  		//	masked (or valid) pixels from that band are averaged and the average is stored in p
35a7195f   David Mayerich   added median spec...
1144
1145
1146
  		double e_x;										//stores E[x]^2
  		double e_x2;										//stores E[x^2]
  		double x;
2aa68315   David Mayerich   major bug fixes f...
1147
  		for (unsigned long long i = 0; i < Z(); i++){
35a7195f   David Mayerich   added median spec...
1148
1149
  			e_x = 0;
  			e_x2 = 0;
a08c98c3   David Mayerich   finished document...
1150
  			band_index(temp, i);				//get the band image and store it in temp
2aa68315   David Mayerich   major bug fixes f...
1151
1152
  			for (unsigned long long j = 0; j < XY; j++){	//loop through temp, averaging valid pixels
  				if (mask == NULL || mask[j] != 0){
35a7195f   David Mayerich   added median spec...
1153
1154
1155
1156
1157
1158
1159
1160
1161
1162
1163
1164
1165
1166
1167
1168
1169
1170
1171
1172
1173
1174
1175
1176
1177
1178
1179
1180
1181
1182
1183
1184
1185
1186
  					x = (double)temp[j];
  					e_x += x / (double)count;				//sum the expected value of x
  					e_x2 += (x * x) / (double)count;		//sum the expected value of x^2
  				}
  			}
  			m[i] = e_x;												//store the mean
  			std[i] = sqrt(e_x2 - e_x * e_x);						//calculate the standard deviation
  			if(PROGRESS) progress = (double)(i+1) / Z() * 100;		//update the progress counter
  		}
  		free(temp);
  		return true;
  	}
  
  	/// Calculate the median value for all masked (or valid) pixels in a band and returns the median spectrum
  
  	/// @param p is a pointer to pre-allocated memory of size [B * sizeof(T)] that stores the mean spectrum
  	/// @param mask is a pointer to memory of size [X * Y] that stores the mask value at each pixel location
  	bool median_spectrum(double* m, unsigned char* mask = NULL, bool PROGRESS = false){
  		size_t XY = X() * Y();
  		size_t count = nnz(mask);						//count will store the number of masked pixels
  		T* temp = (T*)malloc(sizeof(T) * XY);
  		
  		std::vector<T> band_values(count);				//create an STD vector of band values
  
  		//this loops goes through each band in B (Z())
  		//	masked (or valid) pixels from that band are averaged and the average is stored in p
  		size_t k;
  		for (size_t i = 0; i < Z(); i++){							//for each band
  			band_index(temp, i);									//get the band image and store it in temp
  			k = 0;													//initialize the band_value index to zero
  			for (size_t j = 0; j < XY; j++){						//loop through temp, averaging valid pixels
  				if (mask == NULL || mask[j] != 0){
  					band_values[k] = temp[j];				//store the value in the band_values array
  					k++;											//increment the band_values index
43dec788   David Mayerich   added code for si...
1187
  				}
a43c4fe1   heziqi   Added crop in env...
1188
  			}
35a7195f   David Mayerich   added median spec...
1189
1190
1191
  			std::sort(band_values.begin(), band_values.end());		//sort all of the values in the band
  			m[i] = band_values[ count/2 ];							//store the center value in the array
  			if(PROGRESS) progress = (double)(i+1) / Z() * 100;		//update the progress counter
a43c4fe1   heziqi   Added crop in env...
1192
1193
1194
1195
  		}
  		free(temp);
  		return true;
  	}
1a224b6a   David Mayerich   fixed linux compa...
1196
  
a08c98c3   David Mayerich   finished document...
1197
1198
1199
1200
1201
1202
1203
  	/// Crop a region of the image and save it to a new file.
  
  	/// @param outfile is the file name for the new cropped image
  	/// @param x0 is the lower-left x pixel coordinate to be included in the cropped image
  	/// @param y0 is the lower-left y pixel coordinate to be included in the cropped image
  	/// @param x1 is the upper-right x pixel coordinate to be included in the cropped image
  	/// @param y1 is the upper-right y pixel coordinate to be included in the cropped image
e9bddc57   David Mayerich   added band croppi...
1204
1205
1206
1207
1208
  	bool crop(std::string outfile, unsigned long long x0,
  								   unsigned long long y0,
  								   unsigned long long x1,
  								   unsigned long long y1,
  								   unsigned long long b0,
63fc1df8   David Mayerich   added an inverse ...
1209
1210
  								   unsigned long long b1,
  								   bool PROGRESS = false){
e9bddc57   David Mayerich   added band croppi...
1211
1212
  
  		//calculate the new number of samples, lines, and bands
be1064b1   David Mayerich   fixed cropping er...
1213
1214
1215
  		unsigned long long samples = x1 - x0 + 1;
  		unsigned long long lines = y1 - y0 + 1;
  		unsigned long long bands = b1 - b0 + 1;
e9bddc57   David Mayerich   added band croppi...
1216
1217
1218
1219
1220
  
  		//calculate the size of a single band
  		unsigned long long L = samples * lines * sizeof(T);
  
  		//allocate space for a single band
a43c4fe1   heziqi   Added crop in env...
1221
  		T* temp = (T*)malloc(L);
e9bddc57   David Mayerich   added band croppi...
1222
1223
  
  		//create an output stream to store the output file
a43c4fe1   heziqi   Added crop in env...
1224
  		std::ofstream out(outfile.c_str(), std::ios::binary);
e9bddc57   David Mayerich   added band croppi...
1225
1226
1227
1228
1229
1230
1231
1232
1233
1234
1235
  
  		//calculate the distance required to jump from the end of one band to the beginning of another
  		unsigned long long jumpb = X() * (Y() - lines) * sizeof(T);
  
  		//calculate the distance required to jump from the end of one line to the beginning of another
  		unsigned long long jumpl = (X() - samples) * sizeof(T);
  
  		//seek to the start of the cropped region in the input file
  		file.seekg( (b0 * X() * Y() + y0 * X() + x0) * sizeof(T), std::ios::beg);
  
  		//for each band
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  		for (unsigned long long z = b0; z <= b1; z++)
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  		{
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  			//std::cout<<z<<std::endl;
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  			for (unsigned long long y = 0; y < lines; y++)
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  			{
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  				file.read((char *)(temp + y * samples), sizeof(T) * samples);
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  				file.seekg(jumpl, std::ios::cur);    //go to the next band
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  				if(PROGRESS) progress = (double)((z - b0) * lines + y + 1) / ((b1 - b0 + 1) * lines) * 100;
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  			}
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  			out.write(reinterpret_cast<const char*>(temp), L);   //write slice data into target file
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  			file.seekg(jumpb, std::ios::cur);
  		}
  		free(temp);
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  		return true;
  	}
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  	///Crop out several subimages and assemble a new image from these concatenated subimages
  
  	/// @param outfile is the file name for the output image
  	/// @param sx is the width of each subimage
  	/// @param sy is the height of each subimage
  	/// @mask is the mask used to define subimage positions extracted from the input file
  	void subimages(std::string outfile, size_t sx, size_t sy, unsigned char* mask, bool PROGRESS = false){
  
  		size_t N = nnz(mask);									//get the number of subimages
  		T* dst = (T*) malloc(N * sx * sy * sizeof(T));			//allocate space for a single band of the output image
  		memset(dst, 0, N*sx*sy*sizeof(T));						//initialize the band image to zero
  
  		std::ofstream out(outfile, std::ios::binary);			//open a file for writing
  
  		T* src = (T*) malloc(X() * Y() * sizeof(T));
  
  		for(size_t b = 0; b < Z(); b++){						//for each band
  			band_index(src, b);									//load the band image
  			size_t i = 0;										//create an image index and initialize it to zero
  			size_t n = 0;
  			while(n < N){										//for each subimage
  				if(mask[i]){									//if the pixel is masked, copy the surrounding pixels into the destination band
  					size_t yi = i / X();						//determine the y position of the current pixel
  					size_t xi = i - yi * X();					//determine the x position of the current pixel
  					if( xi > sx/2 && xi < X() - sx/2 &&			//if the subimage is completely within the bounds of the original image
  						yi > sy/2 && yi < Y() - sy/2){
  						size_t cx = xi - sx/2;					//calculate the corner position for the subimage
  						size_t cy = yi - sy/2;
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  						for(size_t syi = 0; syi < sy; syi++){					//for each line in the subimage
  							size_t src_i = (cy + syi) * X() + cx;
  							//size_t dst_i = syi * (N * sx) + n * sx;
  							size_t dst_i = (n * sy + syi) * sx;
  							memcpy(&dst[dst_i],  &src[src_i], sx * sizeof(T));	//copy one line from the subimage to the destination image
  						}
  						n++;
  					}
  				}
  				i++;
  				if(PROGRESS) progress = (double)( (n+1) * (b+1) ) / (N * Z()) * 100;
  			}//end while n
  			out.write((const char*)dst, N * sx * sy * sizeof(T));			//write the band to memory
  		}
  		free(dst);												//free memory
  		free(src);
  	}
  
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  	/// Remove a list of bands from the ENVI file
  
  	/// @param outfile is the file name for the output hyperspectral image (with trimmed bands)
  	/// @param b is an array of bands to be eliminated
  	void trim(std::string outfile, std::vector<size_t> band_array, bool PROGRESS = false){
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  		std::ofstream out(outfile.c_str(), std::ios::binary);	//open the output file for writing
  		file.seekg(0, std::ios::beg);							//move to the beginning of the input file
  
  		size_t XY = X() * Y();						//calculate the number of elements in a band
  		size_t XYb = XY * sizeof(T);				//calculate the number of bytes in a band
  		T* temp = (T*)malloc(XYb);					//allocate space to store a band
  
  		size_t i = 0;								//store the first index into the band array
  
  		for(size_t b = 0; b < Z(); b++){			//for each band
  			if(b != band_array[i]){					//if this band is not trimmed
  				file.read((char*)temp, XYb);		//read the band
  				out.write((char*)temp, XYb);		//output the band
  			}
  			else{
  				file.seekg(XYb, std::ios::cur);		//otherwise, skip the band
  				i++;
  			}
  			if(PROGRESS) progress = (double)(b+1) / (double) Z() * 100;
  		}
  		free(temp);									//free the scratch space for the band
  	}
  
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  	/// Combine two BSQ images along the Y axis
  
  	/// @param outfile is the combined file to be output
  	/// @param infile is the input file stream for the image to combine with this one
  	/// @param Sx is the size of the second image along X
  	/// @param Sy is the size of the second image along Y
  	/// @param offset is a shift (negative or positive) in the combined image to the left or right
  	void combine(std::string outfile, bsq<T>* C, long long xp, long long yp, bool PROGRESS = false){
  		std::ofstream out(outfile.c_str(), std::ios::binary);	//open the output file for writing
  		file.seekg(0, std::ios::beg);								//move to the beginning of both files
  		C->file.seekg(0, std::ios::beg);
  
  		size_t S[2];				//size of the output band image
  		size_t p0[2];				//position of the current image in the output
  		size_t p1[2];				//position of the source image in the output
  
  		hsi<T>::calc_combined_size(xp, yp, C->X(), C->Y(), S[0], S[1], p0[0], p0[1], p1[0], p1[1]);	//calculate the image placement parameters
  
  		size_t line_bytes = X() * sizeof(T);
  		size_t band_bytes = X() * Y() * sizeof(T);
  		T* cur = (T*)malloc(X() * Y() * sizeof(T));					//allocate space for a band of the current image
  
  		size_t line_src_bytes = C->X() * sizeof(T);
  		size_t band_src_bytes = C->X() * C->Y() * sizeof(T);
  		T* src = (T*)malloc(C->X() * C->Y() * sizeof(T));			//allocate space for a band of the source image
  
  		size_t line_dst_bytes = S[0] * sizeof(T);
  		size_t band_dst_bytes = S[0] * S[1] * sizeof(T);
  		T* dst = (T*)malloc(band_dst_bytes);						//allocate space for a band of the destination image
  		memset(dst, 0, band_dst_bytes);								//set all values to zero (0) in the destination image
  
  		for(size_t b = 0; b < Z(); b++){							//for each band in both images
  			file.read((char*)cur, band_bytes);						//read a band from the current image
  			C->file.read((char*)src, band_src_bytes);					//read a band from the source image
  			for(size_t y = 0; y < Y(); y++)
  				memcpy( &dst[ (p0[1]+y) * S[0] + p0[0] ], &cur[ y * X() ], line_bytes);		//copy the line from the current to the destination image
  				//memset( &dst[ (p0[1]+y) * S[0] + p0[0] ], 0, line_dst_bytes);
  			for(size_t y = 0; y < C->Y(); y++)
  				memcpy( &dst[ (p1[1]+y) * S[0] + p1[0] ], &src[ y * C->X() ], line_src_bytes);	//copy the line from the source to the destination image
  			out.write((char*)dst, band_dst_bytes);														//write the combined image to an output file
  			if(PROGRESS) progress = (double)(b + 1) / (double) Z() * 100;
  		}
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  		out.close();
  	}
  
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  	/// Append an image to this one along the band dimension
  	void append(std::string outfile, bsq<T>* C, bool PROGRESS = false) {
  		std::ofstream out(outfile.c_str(), std::ios::binary);	//open the output file for writing
  		file.seekg(0, std::ios::beg);							//move to the beginning of both files
  		C->file.seekg(0, std::ios::beg);
  
  		if (PROGRESS) progress = 0;
  		out << file.rdbuf();									//copy the data from this ENVI file
  		if (PROGRESS) progress = (double)(Z() + 1) / (double)(Z() + C->Z()) * 100;
  		out << C->file.rdbuf();									//copy the data from the appending file
  		if (PROGRESS) progress = 100;
  		out.close();
  	}
  
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  	/// Convolve the given band range with a kernel specified by a vector of coefficients.
  
  	/// @param outfile is an already open stream to the output file
  	/// @param C is an array of coefficients
  	/// @param start is the band to start processing (the first coefficient starts here)
  	/// @param nbands is the number of bands to process
  	/// @param center is the index for the center coefficient for the kernel (used to set the wavelengths in the output file)
  
9d77bbd9   David Mayerich   updates for HSIvi...
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  	void convolve(std::ofstream& out, std::vector<double> C, size_t start, size_t end, unsigned char* mask = NULL, bool PROGRESS = false){
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  		size_t nbands = end - start + 1;
  		size_t XY = X() * Y();										//calculate the number of values in a band
  		size_t XYb = XY * sizeof(T);								//calculate the size of a band (frame) in bytes
  
  		file.seekg(XYb * start, std::ios::beg);						//move to the beginning of the 'start' band
  
  		size_t nframes = C.size();									//get the number of bands that the kernel spans
  		std::deque<T*> frame(nframes, NULL);						//create an array to store pointers to each frame
  		for(size_t f = 0; f < nframes; f++){						//for each frame
  			frame[f] = (T*)malloc(XYb);								//allocate space for the frame
  			file.read((char*)frame[f], XYb);						//load the frame
  		}
  
  		T* outband = (T*)malloc(XYb);								//allocate space for the output band
  
  		//Implementation: In order to minimize reads from secondary storage, each band is only loaded once into the 'frame' deque.
  		//					When a new band is loaded, the last band is popped, a new frame is copied to the pointer, and it is
  		//					re-inserted into the deque.
  		for(size_t b = 0; b < nbands; b++){											//for each band
  			memset(outband, 0, XYb);												//set the output band to zero (0)
9d77bbd9   David Mayerich   updates for HSIvi...
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  			size_t c, xy;
  			double coeff;
  			for(c = 0; c < nframes; c++){									//for each frame (corresponding to each coefficient)
  				coeff = C[c];
  				for(xy = 0; xy < XY; xy++){									//for each pixel
  					if(mask == NULL || mask[xy]){
  						outband[xy] += (T)(coeff * frame[c][xy]);			//calculate the contribution of the current frame (scaled by the corresponding coefficient)
  					}
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  				}
  			}
  			out.write((char*)outband, XYb);							//output the band
  			file.read((char*)frame[0], XYb);						//read the next band
  			frame.push_back(frame.front());							//put the first element in the back
  			frame.pop_front();										//pop the first element
  			if(PROGRESS) progress = (double)(b+1) / (double)nbands * 100;
  		}
  	}
  
  	/// Performs a single convolution and saves it to an output file
  
  	/// @param outfile is the convolved file to be output
  	/// @param C is an array of coefficients
  	/// @param start is the band to start processing (the first coefficient starts here)
  	/// @param nbands is the number of bands to process
9d77bbd9   David Mayerich   updates for HSIvi...
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  	void convolve(std::string outfile, std::vector<double> C, size_t start, size_t end, unsigned char* mask = NULL, bool PROGRESS = false){
9b2a5d71   David Mayerich   implemented finit...
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  		std::ofstream out(outfile.c_str(), std::ios::binary);		//open the output file for writing
9d77bbd9   David Mayerich   updates for HSIvi...
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  		convolve(out, C, start, end, mask, PROGRESS);						//start the convolution
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  		out.close();
  	}
  
  	/// Performs a set of convolutions and chains the results together in a single file
  
  	/// @param outfile is the convolved file to be output
  	/// @param C is an array containing an array of coefficients for each kernel
  	/// @param start is the list of start bands for each kernel
  	/// @param end is the list of end bands for each kernel
9d77bbd9   David Mayerich   updates for HSIvi...
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  	void convolve(std::string outfile, std::vector< std::vector<double> > C, std::vector<size_t> start, std::vector<size_t> end, unsigned char* mask = NULL, bool PROGRESS = false){
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  		std::ofstream out(outfile.c_str(), std::ios::binary);		//open the output file for writing
  
  		size_t K = C.size();										//get the number of kernels
  		for(size_t k = 0; k < K; k++){
  			size_t b0 = start[k];									//calculate the range of the convolution
  			size_t b1 = end[k];
9d77bbd9   David Mayerich   updates for HSIvi...
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  			convolve(out, C[k], b0, b1, mask, PROGRESS);					//perform the convolution with the current kernel in the given range
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  		}
  		out.close();
  	}
  
  	/// Approximate the spectral derivative of the image
  
9d77bbd9   David Mayerich   updates for HSIvi...
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  	void deriv(std::string outfile, size_t d, size_t order, const std::vector<double> w = std::vector<double>(), unsigned char* mask = NULL, bool PROGRESS = false){
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  		std::ofstream out(outfile.c_str(), std::ios::binary);		//open the output file for writing
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  		size_t XY = X() * Y();										//calculate the number of values in a band
  		size_t XYb = XY * sizeof(T);								//calculate the size of a band (frame) in bytes
  		size_t B = Z();
  		file.seekg(0, std::ios::beg);								//move to the beginning of the file
  
  		size_t N = order + d;									//approximating a derivative requires order + d samples
  		std::deque<T*> frame(N, NULL);						//create an array to store pointers to each frame
  		for(size_t f = 0; f < N; f++){						//for each frame
  			frame[f] = (T*)malloc(XYb);								//allocate space for the frame
  			file.read((char*)frame[f], XYb);						//load the frame
  		}
  
  		T* outband = (T*)malloc(XYb);								//allocate space for the output band
  
  		//Implementation: In order to minimize reads from secondary storage, each band is only loaded once into the 'frame' deque.
  		//					When a new band is loaded, the last band is popped, a new frame is copied to the pointer, and it is
  		//					re-inserted into the deque.
  		size_t mid = (size_t)(N / 2);							//calculate the mid point of the kernel
  		size_t iw;													//index to the first wavelength used to evaluate the derivative at this band
  		for(size_t b = 0; b < B; b++){								//for each band
  			if(b < mid)												//calculate the first wavelength used to evaluate the derivative at this band
  				iw = 0;
  			else if(b > B - (N - mid + 1))
  				iw = B - N;
  			else{
  				iw = b - mid;
  				file.read((char*)frame[0], XYb);						//read the next band
  				frame.push_back(frame.front());							//put the first element in the back
  				frame.pop_front();										//pop the first element
  			}
  			std::vector<double> w_pts(w.begin() + iw, w.begin() + iw + N);			//get the wavelengths corresponding to each sample
  			std::vector<double> C = diff_coefficients(w[b], w_pts, d);					//get the optimal sample weights
  
  			memset(outband, 0, XYb);												//set the output band to zero (0)
  			for(size_t c = 0; c < N; c++){									//for each frame (corresponding to each coefficient)
  				for(size_t xy = 0; xy < XY; xy++){									//for each pixel
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  					if(mask == NULL || mask[xy]){
  						outband[xy] += (T)(C[c] * frame[c][xy]);			//calculate the contribution of the current frame (scaled by the corresponding coefficient)
  					}
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  				}
  			}
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  			out.write((char*)outband, XYb);							//output the band
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  			if(PROGRESS) progress = (double)(b+1) / (double)B * 100;
  		}
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  	}	//end deriv
  
  	bool multiply(std::string outname, double v, unsigned char* mask = NULL, bool PROGRESS = false){
  		unsigned long long B = Z();									//calculate the number of bands
  		unsigned long long XY = X() * Y();							//calculate the number of pixels in a band
  		unsigned long long S = XY * sizeof(T);						//calculate the number of bytes in a band
  
  		std::ofstream target(outname.c_str(), std::ios::binary);	//open the target binary file
  		std::string headername = outname + ".hdr";					//the header file name
  
  		T * c;														//pointer to the current image
  		c = (T*)malloc( S );										//allocate memory for the band image
  
  		for(unsigned long long j = 0; j < B; j++){					//for each band
  			band_index(c, j);										//load the current band
  			for(unsigned long long i = 0; i < XY; i++){				//for each pixel
  				if(mask == NULL || mask[i])							//if the pixel is masked
  					c[i] *= (T)v;										//perform the multiplication
  			}
  			target.write(reinterpret_cast<const char*>(c), S);		//write normalized data into destination
  
  			if(PROGRESS) progress = (double)(j+1) / B * 100;		//update the progress
  		}
  
  		free(c);													//free the band
  		target.close();												//close the output file
  		return true;
  	}
  
  	bool add(std::string outname, double v, unsigned char* mask = NULL, bool PROGRESS = false){
  		unsigned long long B = Z();									//calculate the number of bands
  		unsigned long long XY = X() * Y();							//calculate the number of pixels in a band
  		unsigned long long S = XY * sizeof(T);						//calculate the number of bytes in a band
  
  		std::ofstream target(outname.c_str(), std::ios::binary);	//open the target binary file
  		std::string headername = outname + ".hdr";					//the header file name
  
  		T * c;														//pointer to the current image
  		c = (T*)malloc( S );										//allocate memory for the band image
  
  		for(unsigned long long j = 0; j < B; j++){					//for each band
  			band_index(c, j);										//load the current band
  			for(unsigned long long i = 0; i < XY; i++){				//for each pixel
  				if(mask == NULL || mask[i])							//if the pixel is masked
  					c[i] += (T)v;										//perform the multiplication
  			}
  			target.write(reinterpret_cast<const char*>(c), S);		//write normalized data into destination
  
  			if(PROGRESS) progress = (double)(j+1) / B * 100;		//update the progress
  		}
  
  		free(c);													//free the band
  		target.close();												//close the output file
  		return true;
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  	}
  
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  	/// Close the file.
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  	bool close(){
  		file.close();
  		return true;
  	}
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  	};
  }
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  #endif
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