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#ifndef STIM_BIL_H
#define STIM_BIL_H
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#include "../envi/envi_header.h"
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#include "../envi/binary.h"
#include <cstring>
#include <utility>
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namespace stim{
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template <typename T>
class bil: public binary<T> {
protected:
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std::vector<double> w; //band wavelength
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public:
using binary<T>::open;
using binary<T>::file;
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using binary<T>::R;
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//open a file, given the file and its header's names
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bool open(std::string filename, unsigned int X, unsigned int Y, unsigned int B, unsigned int header_offset, std::vector<double> wavelengths){
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w = wavelengths;
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return open(filename, vec<unsigned int>(X, Y, B), header_offset);
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}
//save one band of the file into the memory, and return the pointer
bool band_index( T * p, unsigned int page){
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unsigned int L = R[0] * sizeof(T); //caculate the number of bytes in a sample line
unsigned int jump = R[0] * (R[2] - 1) * sizeof(T);
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if (page >= R[2]){ //make sure the bank number is right
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std::cout<<"ERROR: page out of range"<<std::endl;
return false;
}
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file.seekg(R[0] * page * sizeof(T), std::ios::beg);
for (unsigned i = 0; i < R[1]; i++)
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{
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file.read((char *)(p + i * R[0]), L);
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file.seekg( jump, std::ios::cur);
}
return true;
}
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bool band( T * p, double wavelength){
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//if there are no wavelengths in the BSQ file
if(w.size() == 0)
return band_index(p, (unsigned int)wavelength);
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unsigned int XY = R[0] * R[1]; //calculate the number of pixels in a band
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unsigned int S = XY * sizeof(T); //calculate the number of bytes of a band
unsigned page=0; //bands around the wavelength
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//get the bands numbers around the wavelength
//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);
return true;
}
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while( w[page] < wavelength )
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{
page++;
//if wavelength is larger than the last wavelength in header file
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if (page == R[2]) {
band_index(p, R[2]-1);
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return true;
}
}
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if ( wavelength < w[page] )
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{
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T * p1;
T * p2;
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p1=(T*)malloc(S); //memory allocation
p2=(T*)malloc(S);
band_index(p1, page - 1);
band_index(p2, page );
for(unsigned i=0; i < XY; i++){
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double r = (double) (wavelength - w[page-1]) / (double) (w[page] - w[page-1]);
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p[i] = (p2[i] - p1[i]) * r + p1[i];
}
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free(p1);
free(p2);
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}
else //if the wavelength is equal to a wavelength in header file
{
band_index(p, page);
}
return true;
}
//get YZ line from the a Y slice, Y slice data should be already IN the MEMORY
bool getYZ(T* p, T* c, double wavelength)
{
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unsigned int X = R[0]; //calculate the number of pixels in a sample
unsigned int B = R[2];
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unsigned int L = X * sizeof(T);
unsigned page=0; //samples around the wavelength
T * p1;
T * p2;
//get the bands numbers around the wavelength
//if wavelength is smaller than the first one in header file
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if ( w[page] > wavelength ){
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memcpy(p, c, L);
return true;
}
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while( w[page] < wavelength )
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{
page++;
//if wavelength is larger than the last wavelength in header file
if (page == B) {
memcpy(p, c + (B - 1) * X, L);
return true;
}
}
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if ( wavelength < w[page] )
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{
p1=(T*)malloc( L ); //memory allocation
p2=(T*)malloc( L );
memcpy(p1, c + (page - 1) * X, L);
memcpy(p2, c + page * X, L);
for(unsigned i=0; i < X; i++){
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double r = (double) (wavelength - w[page-1]) / (double) (w[page] - w[page-1]);
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p[i] = (p2[i] - p1[i]) * r + p1[i];
}
}
else //if the wavelength is equal to a wavelength in header file
memcpy(p, c + page * X, L);
return true;
}
//save one pixel of the BIP file into the memory, and return the pointer
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bool spectrum(T * p, unsigned x, unsigned y){
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if ( x >= R[0] || y >= R[1]){ //make sure the sample and line number is right
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std::cout<<"ERROR: sample or line out of range"<<std::endl;
exit(1);
}
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unsigned jump = (R[0] - 1) * sizeof(T);
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file.seekg((y * R[0] * R[2] + x) * sizeof(T), std::ios::beg);
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for(unsigned i = 0; i < R[2]; i++)
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{
//point to the certain sample and line
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file.read((char *)(p + i), sizeof(T));
file.seekg(jump, std::ios::cur);
}
return true;
}
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//save one pixel into memory
bool pixel(T * p, unsigned n){
//calculate the corresponding x, y
unsigned int x = n % R[0];
unsigned int y = n / R[0];
//get the pixel
return spectrum(p, x, y);
}
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//given a Y ,return a XZ slice
bool getY(T * p, unsigned y)
{
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if ( y >= R[1]){ //make sure the line number is right
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std::cout<<"ERROR: line out of range"<<std::endl;
exit(1);
}
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file.seekg(y * R[2] * R[0] * sizeof(T), std::ios::beg);
file.read((char *)p, sizeof(T) * R[2] * R[0]);
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return true;
}
//(BIL) baseline correction
bool baseline(std::string outname, std::vector<double> wls){
unsigned N = wls.size(); //get the number of baseline points
std::ofstream target(outname.c_str(), std::ios::binary); //open the target binary file
std::string headername = outname + ".hdr"; //the header file name
//simplify image resolution
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unsigned int ZX = R[2] * R[0]; //calculate the number of points in a Y slice
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unsigned int L = ZX * sizeof(T); //calculate the number of bytes of a Y slice
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unsigned int B = R[2];
unsigned int X = R[0];
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T* c; //pointer to the current Y slice
c = (T*)malloc(L); //memory allocation
T* a; //pointer to the two YZ lines surrounding the current YZ line
T* b;
a = (T*)malloc(X * sizeof(T));
b = (T*)malloc(X * sizeof(T));
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 control;
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if (a == NULL || b == NULL || c == NULL){
std::cout<<"ERROR: error allocating memory";
exit(1);
}
// loop start correct every y slice
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for (unsigned k =0; k < R[1]; k++)
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{
//get the current y slice
getY(c, k);
//initialize lownum, highnum, low, high
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ai = w[0];
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control=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];
memset(a, (char)0, X * sizeof(T) );
}
//else get the low band
else{
control++;
getYZ(a, c, ai);
bi = wls[control];
}
//get the high band
getYZ(b, c, bi);
//correct every YZ line
for(unsigned cii = 0; cii < B; cii++){
//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];
getYZ(b, c, bi);
}
//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, X * sizeof(T) ); //clear the high band
ai = bi;
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bi = w[B - 1];
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}
}
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ci = w[cii];
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unsigned jump = cii * X;
//perform the baseline correction
for(unsigned i=0; i < X; i++)
{
double r = (double) (ci - ai) / (double) (bi - ai);
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c[i + jump] =(T) ( c[i + jump] - (b[i] - a[i]) * r - a[i] );
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}
}//loop for YZ line end
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target.write(reinterpret_cast<const char*>(c), L); //write the corrected data into destination
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}//loop for Y slice end
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free(a);
free(b);
free(c);
target.close();
return true;
}
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// normalize the BIL file
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bool normalize(std::string outname, double w)
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{
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unsigned int B = R[2]; //calculate the number of bands
unsigned int Y = R[1];
unsigned int X = R[0];
unsigned int ZX = R[2] * R[0];
unsigned int XY = R[0] * R[1]; //calculate the number of pixels in a band
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unsigned int S = XY * sizeof(T); //calculate the number of bytes in a band
unsigned int L = ZX * sizeof(T);
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 ZX slice
T * b; //pointer to the standard band
b = (T*)malloc( S ); //memory allocation
c = (T*)malloc( L );
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band(b, w); //get the certain band into memory
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for(unsigned j = 0; j < Y; j++)
{
getY(c, j);
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for(unsigned i = 0; i < B; i++)
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{
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for(unsigned m = 0; m < X; m++)
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{
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c[m + i * X] = c[m + i * X] / b[m + j * X];
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}
}
target.write(reinterpret_cast<const char*>(c), L); //write normalized data into destination
}
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free(b);
free(c);
target.close();
return true;
}
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//convert BIL file to BSQ file and save it
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bool bsq(std::string outname)
{
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unsigned int S = R[0] * R[1] * sizeof(T); //calculate the number of bytes in a band
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std::ofstream target(outname.c_str(), std::ios::binary);
std::string headername = outname + ".hdr";
T * p; //pointer to the current band
p = (T*)malloc(S);
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for ( unsigned i = 0; i < R[2]; i++)
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{
band_index(p, i);
target.write(reinterpret_cast<const char*>(p), S); //write a band data into target file
}
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free(p);
target.close();
return true;
}
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//convert bil file to bip file and save it
bool bip(std::string outname)
{
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unsigned int S = R[0] * R[2] * sizeof(T); //calculate the number of bytes in a ZX slice
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|
std::ofstream target(outname.c_str(), std::ios::binary);
std::string headername = outname + ".hdr";
T * p; //pointer to the current XZ slice for bil file
p = (T*)malloc(S);
T * q; //pointer to the current ZX slice for bip file
q = (T*)malloc(S);
|
6708cc25
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Ziqi added envi c...
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|
for ( unsigned i = 0; i < R[1]; i++)
|
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Ziqi completed bi...
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|
{
getY(p, i);
|
6708cc25
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|
for ( unsigned k = 0; k < R[2]; k++)
|
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{
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|
unsigned ks = k * R[0];
for ( unsigned j = 0; j < R[0]; j++)
q[k + j * R[2]] = p[ks + j];
|
f6169dea
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Ziqi completed bi...
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}
target.write(reinterpret_cast<const char*>(q), S); //write a band data into target file
}
|
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Ziqi added envi c...
|
400
|
|
f6169dea
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|
free(p);
free(q);
target.close();
return true;
}
|
20c212c0
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Ziqi added functi...
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|
//providing the left and the right bound data, return baseline-corrected band height
bool baseline_band(double lb, double rb, T* lp, T* rp, double wavelength, T* result){
unsigned XY = R[0] * R[1];
band(result, wavelength); //get band
//perform the baseline correction
double r = (double) (wavelength - lb) / (double) (rb - lb);
for(unsigned i=0; i < XY; i++){
result[i] =(T) (result[i] - (rp[i] - lp[i]) * r - lp[i] );
}
return true;
}
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bool height(double lb, double rb, double bandwavelength, T* result){
|
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T* lp;
T* rp;
|
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|
unsigned XY = R[0] * R[1];
unsigned S = XY * sizeof(T);
lp = (T*) malloc(S); //memory allocation
rp = (T*) malloc(S);
|
20c212c0
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|
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band(lp, lb);
|
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band(rp, rb);
baseline_band(lb, rb, lp, rp, bandwavelength, result);
|
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metrics finished ...
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free(lp);
free(rp);
|
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return true;
}
|
70407ea9
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Ziqi completed he...
|
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//calculate the area between two bound point(including baseline correction)
|
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bool area(double lb, double rb, double lab, double rab, T* result){
|
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Ziqi added functi...
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|
T* lp; //left band pointer
T* rp; //right band pointer
T* cur; //current band 1
T* cur2; //current band 2
|
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Ziqi added functi...
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|
unsigned XY = R[0] * R[1];
unsigned S = XY * sizeof(T);
lp = (T*) malloc(S); //memory allocation
rp = (T*) malloc(S);
cur = (T*) malloc(S);
cur2 = (T*) malloc(S);
|
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Ziqi added functi...
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|
memset(result, (char)0, S);
//find the wavelenght position in the whole band
unsigned int n = w.size();
unsigned int ai = 0; //left bound position
unsigned int bi = n - 1; //right bound position
//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
|
70407ea9
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Ziqi completed he...
|
478
|
while (lab >= w[ai]){
|
20c212c0
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Ziqi added functi...
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|
ai++;
}
|
70407ea9
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Ziqi completed he...
|
481
|
while (rab <= w[bi]){
|
20c212c0
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Ziqi added functi...
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485
486
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|
bi--;
}
band(lp, lb);
band(rp, rb);
//calculate the beginning and the ending part
|
70407ea9
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Ziqi completed he...
|
489
490
|
baseline_band(lb, rb, lp, rp, rab, cur2); //ending part
baseline_band(lb, rb, lp, rp, w[bi], cur);
|
20c212c0
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Ziqi added functi...
|
491
|
for(unsigned j = 0; j < XY; j++){
|
70407ea9
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Ziqi completed he...
|
492
|
result[j] += (rab - w[bi]) * (cur[j] + cur2[j]) / 2.0;
|
20c212c0
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Ziqi added functi...
|
493
|
}
|
70407ea9
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Ziqi completed he...
|
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495
|
baseline_band(lb, rb, lp, rp, lab, cur2); //beginnning part
baseline_band(lb, rb, lp, rp, w[ai], cur);
|
20c212c0
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Ziqi added functi...
|
496
|
for(unsigned j = 0; j < XY; j++){
|
70407ea9
heziqi
Ziqi completed he...
|
497
|
result[j] += (w[ai] - lab) * (cur[j] + cur2[j]) / 2.0;
|
20c212c0
heziqi
Ziqi added functi...
|
498
|
}
|
517876d6
heziqi
metrics finished ...
|
499
|
|
20c212c0
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Ziqi added functi...
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502
503
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510
|
//calculate the area
ai++;
for(unsigned i = ai; i <= bi ;i++)
{
baseline_band(lb, rb, lp, rp, w[ai], cur2);
for(unsigned j = 0; j < XY; j++)
{
result[j] += (w[ai] - w[ai-1]) * (cur[j] + cur2[j]) / 2.0;
}
std::swap(cur,cur2); //swap the band pointers
}
|
70407ea9
heziqi
Ziqi completed he...
|
511
|
|
517876d6
heziqi
metrics finished ...
|
512
513
514
515
|
free(lp);
free(rp);
free(cur);
free(cur2);
|
20c212c0
heziqi
Ziqi added functi...
|
516
517
518
|
return true;
}
|
70407ea9
heziqi
Ziqi completed he...
|
519
520
521
522
523
524
525
526
527
528
529
530
531
532
533
534
|
//peak height ratio
bool ph_to_ph(double lb1, double rb1, double pos1, double lb2, double rb2, double pos2, T * result){
T* p1 = (T*)malloc(R[0] * R[1] * sizeof(T));
T* p2 = (T*)malloc(R[0] * R[1] * sizeof(T));
//get the two peak band
height(lb1, rb1, pos1, p1);
height(lb2, rb2, pos2, p2);
//calculate the ratio in result
for(unsigned i = 0; i < R[0] * R[1]; i++){
if(p1[i] == 0 && p2[i] ==0)
result[i] = 1;
else
result[i] = p1[i] / p2[i];
}
|
517876d6
heziqi
metrics finished ...
|
535
536
537
|
free(p1);
free(p2);
|
70407ea9
heziqi
Ziqi completed he...
|
538
539
540
541
542
543
544
545
546
547
548
549
550
551
552
553
554
555
556
557
|
return true;
}
//peak are to peak height ratio
bool pa_to_ph(double lb1, double rb1, double lab1, double rab1,
double lb2, double rb2, double pos, T* result){
T* p1 = (T*)malloc(R[0] * R[1] * sizeof(T));
T* p2 = (T*)malloc(R[0] * R[1] * sizeof(T));
//get the area and the peak band
area(lb1, rb1, lab1, rab1, p1);
height(lb2, rb2, pos, p2);
//calculate the ratio in result
for(unsigned i = 0; i < R[0] * R[1]; i++){
if(p1[i] == 0 && p2[i] ==0)
result[i] = 1;
else
result[i] = p1[i] / p2[i];
}
|
517876d6
heziqi
metrics finished ...
|
558
559
560
|
free(p1);
free(p2);
|
70407ea9
heziqi
Ziqi completed he...
|
561
562
563
564
565
566
567
568
569
570
571
572
573
574
575
576
577
578
579
580
|
return true;
}
//peak area to peak area ratio
bool pa_to_pa(double lb1, double rb1, double lab1, double rab1,
double lb2, double rb2, double lab2, double rab2, T* result){
T* p1 = (T*)malloc(R[0] * R[1] * sizeof(T));
T* p2 = (T*)malloc(R[0] * R[1] * sizeof(T));
//get the area and the peak band
area(lb1, rb1, lab1, rab1, p1);
area(lb2, rb2, lab2, rab2, p2);
//calculate the ratio in result
for(unsigned i = 0; i < R[0] * R[1]; i++){
if(p1[i] == 0 && p2[i] ==0)
result[i] = 1;
else
result[i] = p1[i] / p2[i];
}
|
517876d6
heziqi
metrics finished ...
|
581
582
583
|
free(p1);
free(p2);
|
70407ea9
heziqi
Ziqi completed he...
|
584
585
586
|
return true;
}
|
517876d6
heziqi
metrics finished ...
|
587
588
589
590
591
592
593
594
595
596
597
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605
606
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664
665
666
667
668
669
670
671
672
673
674
675
676
677
678
679
680
681
682
|
//x * f(x)
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
unsigned XY = R[0] * R[1];
unsigned S = XY * sizeof(T);
lp = (T*) malloc(S); //memory allocation
rp = (T*) malloc(S);
cur = (T*) malloc(S);
cur2 = (T*) malloc(S);
memset(result, (char)0, S);
//find the wavelenght position in the whole band
unsigned int n = w.size();
unsigned int ai = 0; //left bound position
unsigned int bi = n - 1; //right bound position
//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);
//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);
for(unsigned j = 0; j < XY; j++){
result[j] += (rab - w[bi]) * (rab + w[bi]) * (cur[j] + cur2[j]) / 4.0;
}
baseline_band(lb, rb, lp, rp, lab, cur2); //beginnning part
baseline_band(lb, rb, lp, rp, w[ai], cur);
for(unsigned j = 0; j < XY; j++){
result[j] += (w[ai] - lab) * (w[ai] + lab) * (cur[j] + cur2[j]) / 4.0;
}
//calculate f(x) times x
ai++;
for(unsigned i = ai; i <= bi ;i++)
{
baseline_band(lb, rb, lp, rp, w[ai], cur2);
for(unsigned j = 0; j < XY; j++)
{
result[j] += (w[ai] - w[ai-1]) * (w[ai] + w[ai-1]) * (cur[j] + cur2[j]) / 4.0;
}
std::swap(cur,cur2); //swap the band pointers
}
free(lp);
free(rp);
free(cur);
free(cur2);
return true;
}
//centroid point
bool cpoint(double lb, double rb, double lab, double rab, T* result){
T* p1 = (T*)malloc(R[0] * R[1] * sizeof(T));
T* p2 = (T*)malloc(R[0] * R[1] * sizeof(T));
//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
for(unsigned i = 0; i < R[0] * R[1]; i++){
if(p1[i] == 0 && p2[i] ==0)
result[i] = 1;
else
result[i] = p1[i] / p2[i];
}
free(p1);
free(p2);
return true;
}
|
4a6f666c
heziqi
Added mask method
|
683
|
//create mask file
|
f4c5d71b
David Mayerich
started working w...
|
684
|
bool build_mask(double mask_band, double threshold, unsigned char* p){
|
4a6f666c
heziqi
Added mask method
|
685
686
687
688
689
690
691
692
693
694
695
|
T* temp = (T*)malloc(R[0] * R[1] * sizeof(T)); //allocate memory for the certain band
band(temp, mask_band);
for (unsigned int i = 0; i < R[0] * R[1]; i++) {
if (temp[i] < threshold)
p[i] = 0;
else
p[i] = 255;
}
|
517876d6
heziqi
metrics finished ...
|
696
|
free(temp);
|
4a6f666c
heziqi
Added mask method
|
697
698
699
|
return true;
}
|
740f8cd2
heziqi
added apply_mask
|
700
701
702
703
704
705
706
707
708
709
710
711
712
713
714
715
716
717
718
719
720
721
722
723
724
725
726
727
728
729
|
//apply mask
bool apply_mask(std::string outfile, unsigned char* p){
std::ofstream target(outfile.c_str(), std::ios::binary);
unsigned XZ = R[0] * R[2]; //calculate number of a band
unsigned L = XZ * sizeof(T);
T * temp = (T*)malloc(L);
for (unsigned i = 0; i < R[1]; i++)
{
getY(temp, i);
for ( unsigned j = 0; j < R[2]; j++)
{
for (unsigned k = 0; k < R[0]; k++)
{
if(p[i * R[0] + k] == 0)
temp[j * R[0] + k] = 0;
else
continue;
}
}
target.write(reinterpret_cast<const char*>(temp), L); //write a band data into target file
}
target.close();
free(temp);
return true;
}
|
a43c4fe1
heziqi
Added crop in env...
|
730
731
732
733
734
735
736
737
738
739
740
741
742
743
744
745
746
747
748
749
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764
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769
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779
780
781
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784
785
786
787
788
789
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795
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805
806
807
808
809
810
811
812
813
814
815
816
817
818
819
820
821
822
823
824
825
826
827
|
//calculate the average band value
bool band_avg(T* p){
unsigned long long XZ = R[0] * R[2];
T* temp = (T*)malloc(sizeof(T) * XZ);
T* line = (T*)malloc(sizeof(T) * R[0]);
for (unsigned i = 0; i < R[1]; i++){
getY(temp, i);
//initialize x-line
for (unsigned j = 0; j < R[0]; j++){
line[j] = 0;
}
unsigned c = 0;
for (unsigned j = 0; j < R[2]; j++){
for (unsigned k = 0; k < R[0]; k++){
line[k] += temp[c] / (T)R[2];
c++;
}
}
for (unsigned j = 0; j < R[0]; j++){
p[j + i * R[0]] = line[j];
}
}
free(temp);
return true;
}
//calculate the average number of every band
bool avg_band(T*p, unsigned char* mask){
unsigned long long XZ = R[0] * R[2];
unsigned long long XY = R[0] * R[1];
T* temp = (T*)malloc(sizeof(T) * XZ);
for (unsigned j = 0; j < R[2]; j++){
p[j] = 0;
}
//calculate vaild number in a band
unsigned count = 0;
for (unsigned j = 0; j < XY; j++){
if (mask[j] != 0){
count++;
}
}
for (unsigned k = 0; k < R[1]; k++){
getY(temp, k);
unsigned kx = k * R[0];
for (unsigned i = 0; i < R[0]; i++){
if (mask[kx + i] != 0){
for (unsigned j = 0; j < R[2]; j++){
p[j] += temp[j * R[0] + i] / (T)count;
}
}
}
}
free(temp);
return true;
}
//calculate correlation coefficient matrix
bool co_matrix(T* co, T* avg, unsigned char *mask){
//memory allocation
unsigned long long xy = R[0] * R[1];
unsigned int B = R[2];
T* temp = (T*)malloc(sizeof(T) * B);
//count vaild pixels in a band
unsigned count = 0;
for (unsigned j = 0; j < xy; j++){
if (mask[j] != 0){
count++;
}
}
//initialize correlation matrix
for (unsigned i = 0; i < B; i++){
for (unsigned k = 0; k < B; k++){
co[i * B + k] = 0;
}
}
//calculate correlation coefficient matrix
for (unsigned j = 0; j < xy; j++){
if (mask[j] != 0){
pixel(temp, j);
for (unsigned i = 0; i < B; i++){
for (unsigned k = i; k < B; k++){
co[i * B + k] += (temp[i] - avg[i]) * (temp[k] - avg[k]) / count;
}
}
}
}
//because correlation matrix is symmetric
for (unsigned i = 0; i < B; i++){
for (unsigned k = i + 1; k < B; k++){
co[k * B + i] = co[i * B + k];
}
}
free(temp);
return true;
}
|
0df38ff3
heziqi
fixed head detached
|
828
|
|
a43c4fe1
heziqi
Added crop in env...
|
829
830
831
832
833
834
835
836
837
838
839
840
841
842
843
844
845
846
847
848
849
850
851
852
853
854
|
//crop specified area the of the original file
bool crop(std::string outfile, unsigned x0, unsigned y0, unsigned x1, unsigned y1){
//calculate the new number of samples and lines
unsigned long long sam = x1 - x0; //samples
unsigned long long lin = y1 - y0; //lines
unsigned long long L = sam * R[2] * sizeof(T);
//get specified band and save
T* temp = (T*)malloc(L);
std::ofstream out(outfile.c_str(), std::ios::binary);
unsigned long long jumpb = (R[0] - sam) * sizeof(T); //jump pointer to the next band
//get start
file.seekg((y0 * R[0] * R[2] + x0) * sizeof(T), std::ios::beg);
for (unsigned i = 0; i < lin; i++)
{
for (unsigned j = 0; j < R[2]; j++)
{
file.read((char *)(temp + j * sam), sizeof(T) * sam);
file.seekg(jumpb, std::ios::cur); //go to the next band
}
out.write(reinterpret_cast<const char*>(temp), L); //write slice data into target file
}
free(temp);
return true;
}
|
0df38ff3
heziqi
fixed head detached
|
855
|
|
f6169dea
heziqi
Ziqi completed bi...
|
856
857
858
859
860
861
|
//close the file
bool close(){
file.close();
return true;
}
|
c25e7d0d
heziqi
speed of bip.base...
|
862
|
};
|
cac62fd3
David Mayerich
modified to work ...
|
863
|
}
|
6aa04ba2
David Mayerich
interleave types
|
864
865
|
#endif
|