bsq.h
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#include "../envi/envi.h"
#include "../envi/binary.h"
#include <cstring>
#include <utility>
namespace rts{
template <typename T>
class bsq: public binary<T> {
protected:
envi header;
public:
using binary<T>::open;
using binary<T>::file;
using binary<T>::getSlice;
//open a file, given the file and its header's names
bool open(std::string filename, std::string headername){
if (header.load(headername)==false){
std::cout<<"ERROR: unable to load head file"<<std::endl;
return false;
}
open(filename, vec<unsigned int>(header.samples, header.lines, header.bands), header.header_offset);
return true;
}
//save one band of the file into the memory, and return the pointer
bool getBand( T * p, unsigned int page){
if (page >= header.bands){ //make sure the bank number is right
std::cout<<"ERROR: page out of range"<<std::endl;
return false;
}
getSlice(p, 2, page);
return true;
}
//save one pixel of the file into the memory, and return the pointer
bool getSpectrum(T * p, unsigned x, unsigned y){
unsigned int i;
if ( x >= header.samples || y >= header.lines){ //make sure the sample and line number is right
std::cout<<"ERROR: sample or line out of range"<<std::endl;
return false;
}
file.seekg((x + y * header.samples) * sizeof(T), std::ios::beg); //point to the certain sample and line
for (i = 0; i < header.bands; i++)
{
file.read((char *)(p + i), sizeof(T));
file.seekg((header.lines * header.samples - 1) * sizeof(T), std::ios::cur); //go to the next band
}
return true;
}
//baseline correction and save it into file
bool baseline(std::string outname, std::vector<unsigned> bands )
{
unsigned N = bands.size(); //get the number of baseline points
std::ofstream target(outname.c_str(), std::ios::binary); //open the target binary file
//simplify image resolution
unsigned int B = header.bands; //calculate the number of bands
unsigned int XY = header.samples * header.lines; //calculate the number of pixels in a band
unsigned int S = XY * sizeof(T); //calculate the number of bytes in a band
unsigned ai, bi; //stores the two baseline points surrounding the current band
unsigned control=0;
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
b = (T*)malloc( S );
c = (T*)malloc( S );
if (a == NULL || b == NULL || c == NULL){
std::cout<<"ERROR: error allocating memory";
exit(1);
}
//initialize lownum, highnum, low, high
ai=0;
//if no baseline point is specified at band 0,
//set the baseline point at band 0 to 0
if(bands[0] != 0){
bi = bands[control];
memset(a, (char)0, S);
}
//else get the low band
else{
control += 1;
getBand(a, ai);
bi = bands[control];
}
//get the high band
getBand(b, bi);
//correct every band
for(unsigned ci = 0; ci < B; ci++){
//update baseline points, if necessary
if( ci == bi && ci != B - 1) {
//if the high band is now on the last BL point?
if (control != N-1) {
control++; //increment the index
std::swap<T*>(a, b); //swap the baseline band pointers
ai = bi;
bi = bands[control];
getBand(b, bi);
}
//if the last BL point on the last band of the file?
else if ( bands[control] != B - 1) {
std::swap<T*>(a, b); //swap the baseline band pointers
memset(b, (char)0, S); //clear the high band
ai = bi;
bi = B - 1;
}
}
//get the current band
getBand(c, ci);
//perform the baseline correction
for(unsigned i=0; i < XY; i++){
double r = (double) (ci - ai) / (double) (bi - ai);
c[i] = c[i] - (b[i] - a[i]) * r - a[i];
}
target.write(reinterpret_cast<const char*>(c), S); //write the corrected data into destination
}
free(a);
free(b);
free(c);
target.close();
return true;
}
};
}