envi_header.h
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#ifndef ENVI_HEADER_H
#define ENVI_HEADER_H
#include <string>
#include <iostream>
#include <fstream>
#include <sstream>
#include <vector>
#include <stdlib.h>
//information from an ENVI header file
//A good resource can be found here: http://www.exelisvis.com/docs/enviheaderfiles.html
namespace stim{
struct envi_header
{
enum dataType {dummy0, int8, int16, int32, float32, float64, complex32, dummy7, dummy8, complex64, dummy10, dummy11, uint16, uint32, int64, uint64};
enum interleaveType {BIP, BIL, BSQ}; //bip = Z,X,Y; bil = X,Z,Y; bsq = X,Y,Z
enum endianType {endianLittle, endianBig};
std::string name;
std::string description;
unsigned int samples; //x-axis
unsigned int lines; //y-axis
unsigned int bands; //spectral axis
unsigned int header_offset; //header offset for binary file (in bytes)
std::string file_type; //should be "ENVI Standard"
envi_header::dataType data_type; //data representation; common value is 4 (32-bit float)
envi_header::interleaveType interleave;
std::string sensor_type; //not really used
envi_header::endianType byte_order; //little = least significant bit first (most systems)
double x_start, y_start; //coordinates of the upper-left corner of the image
std::string wavelength_units; //stored wavelength units
std::string z_plot_titles[2];
double pixel_size[2]; //pixel size along X and Y
std::vector<std::string> band_names; //name for each band in the image
std::vector<double> wavelength; //wavelength for each band
void init(){
name = "";
//specify default values for a new or empty ENVI file
samples = 0;
lines = 0;
bands = 0;
header_offset = 0;
data_type = float32;
interleave = BSQ;
byte_order = endianLittle;
x_start = y_start = 0;
pixel_size[0] = pixel_size[1] = 1;
//strings
file_type = "ENVI Standard";
sensor_type = "Unknown";
wavelength_units = "Unknown";
z_plot_titles[0] = z_plot_titles[1] = "Unknown";
}
envi_header(){
init();
}
envi_header(std::string name){
init();
load(name);
}
std::string trim(std::string line){
//trims whitespace from the beginning and end of line
unsigned int start_i, end_i;
for(start_i=0; start_i < line.length(); start_i++)
if(line[start_i] != 32)
{
break;
}
for(end_i = line.length()-1; end_i >= start_i; end_i--)
if(line[end_i] != ' ')
{
break;
}
return line.substr(start_i, end_i - start_i+1);
}
std::string get_token(std::string line){
//returns a variable name; in this case we look for the '=' sign
size_t i = line.find_first_of('=');
std::string result;
if(i != std::string::npos)
result = trim(line.substr(0, i-1));
return result;
}
std::string get_data_str(std::string line){
size_t i = line.find_first_of('=');
std::string result;
if(i != std::string::npos)
result = trim(line.substr(i+1));
else
{
std::cout<<"ENVI Header error - data not found for token: "<<get_token(line)<<std::endl;
exit(1);
}
return result;
}
std::string get_brace_str(std::string token, std::string line, std::ifstream &file)
{
//this function assembles all of the characters between curly braces
//this is how strings are defined within an ENVI file
std::string result;
//first, find the starting brace
size_t i;
do
{
i = line.find_first_of('{');
if(i != std::string::npos)
break;
}while(file);
//if i is still npos, we have reached the end of the file without a brace...something is wrong
if(i == std::string::npos)
{
std::cout<<"ENVI Header error - string token declared without being defined: "<<token<<std::endl;
exit(1);
}
line = line.substr(i+1);
//copy character data into the result string until we find a closing brace
while(file)
{
i = line.find_first_of('}');
if(i != std::string::npos)
{
result += line.substr(0, i);
break;
}
else
result += line;
getline(file, line);
}
if(i == std::string::npos)
{
std::cout<<"ENVI Header error - string token declared without a terminating '}': "<<token<<std::endl;
exit(1);
}
return trim(result);
}
std::vector<std::string> get_string_seq(std::string token, std::string sequence)
{
//this function returns a sequence of comma-delimited strings
std::vector<std::string> result;
std::string entry;
size_t i;
do
{
i = sequence.find_first_of(',');
entry = sequence.substr(0, i);
sequence = sequence.substr(i+1);
result.push_back(trim(entry));
}while(i != std::string::npos);
return result;
}
std::vector<double> get_double_seq(std::string token, std::string sequence)
{
//this function returns a sequence of comma-delimited strings
std::vector<double> result;
std::string entry;
size_t i;
do
{
i = sequence.find_first_of(',');
entry = sequence.substr(0, i);
sequence = sequence.substr(i+1);
result.push_back(atof(entry.c_str()));
//std::cout<<entry<<" ";
}while(i != std::string::npos);
return result;
}
bool load(std::string filename)
{
//open the header file
std::ifstream file(filename.c_str());
if(!file)
{
std::cout<<"ERROR: unable to open header file: "<<filename<<std::endl;
return false;
}
//the first line should just be "ENVI"
std::string line;
file>>line;
if(line != "ENVI")
{
std::cout<<"ENVI Header Error: The header doesn't appear to be an ENVI file. The first line should be 'ENVI'."<<std::endl;
exit(1);
}
//for each line in the file, get the token
std::string token;
//get a line
getline(file, line);
while(file)
{
//get the token
token = get_token(line);
if(token == "description")
description = get_brace_str(token, line, file);
else if(token == "band names")
{
std::string string_sequence = get_brace_str(token, line, file);
band_names = get_string_seq(token, string_sequence);
}
else if(token == "wavelength")
{
std::string string_sequence = get_brace_str(token, line, file);
wavelength = get_double_seq(token, string_sequence);
}
else if(token == "pixel size")
{
std::string string_sequence = get_brace_str(token, line, file);
std::vector<double> pxsize = get_double_seq(token, string_sequence);
pixel_size[0] = pxsize[0];
pixel_size[1] = pxsize[1];
}
else if(token == "z plot titles")
{
std::string string_sequence = get_brace_str(token, line, file);
std::vector<std::string> titles = get_string_seq(token, string_sequence);
z_plot_titles[0] = titles[0];
z_plot_titles[1] = titles[1];
}
else if(token == "samples")
samples = atoi(get_data_str(line).c_str());
else if(token == "lines")
lines = atoi(get_data_str(line).c_str());
else if(token == "bands")
bands = atoi(get_data_str(line).c_str());
else if(token == "header offset")
header_offset = atoi(get_data_str(line).c_str());
else if(token == "file type")
file_type = get_data_str(line);
else if(token == "data type")
data_type = (dataType)atoi(get_data_str(line).c_str());
else if(token == "interleave")
{
std::string interleave_str = get_data_str(line);
if(interleave_str == "bip")
interleave = BIP;
else if(interleave_str == "bil")
interleave = BIL;
else if(interleave_str == "bsq")
interleave = BSQ;
}
else if(token == "sensor type")
sensor_type = get_data_str(line);
else if(token == "byte order")
byte_order = (endianType)atoi(get_data_str(line).c_str());
else if(token == "x start")
x_start = atof(get_data_str(line).c_str());
else if(token == "y start")
y_start = atof(get_data_str(line).c_str());
else if(token == "wavelength units")
wavelength_units = get_data_str(line);
//get the next line
getline(file, line);
}
//make sure the number of bands matches the number of wavelengths
unsigned int wavelengths = wavelength.size();
if(wavelengths && bands != wavelengths)
{
std::cout<<"ENVI Header Error -- Number of wavelengths doesn't match the number of bands. Bands = "<<bands<<", Wavelengths = "<<wavelength.size()<<std::endl;
exit(1);
}
//close the file
file.close();
//set the file name
name = filename;
return true;
}
void save(std::string filename)
{
//open a file
std::ofstream outfile(filename.c_str());
//write the ENVI type identifier
outfile<<"ENVI"<<std::endl;
//output all of the data
outfile<<"description = {"<<std::endl;
outfile<<" "<<description<<"}"<<std::endl;
outfile<<"samples = "<<samples<<std::endl;
outfile<<"lines = "<<lines<<std::endl;
outfile<<"bands = "<<bands<<std::endl;
outfile<<"header offset = "<<header_offset<<std::endl;
outfile<<"file type = "<<file_type<<std::endl;
outfile<<"data type = "<<data_type<<std::endl;
outfile<<"interleave = ";
if(interleave == BIP)
outfile<<"bip";
if(interleave == BIL)
outfile<<"bil";
if(interleave == BSQ)
outfile<<"bsq";
outfile<<std::endl;
outfile<<"sensor type = "<<sensor_type<<std::endl;
outfile<<"byte order = "<<byte_order<<std::endl;
outfile<<"x start = "<<x_start<<std::endl;
outfile<<"y start = "<<y_start<<std::endl;
outfile<<"wavelength units = "<<wavelength_units<<std::endl;
outfile<<"z plot titles = {";
outfile<<z_plot_titles[0]<<", "<<z_plot_titles[1]<<"}"<<std::endl;
outfile<<"pixel size = {"<<pixel_size[0]<<", "<<pixel_size[1]<<", units=Meters}"<<std::endl;
if(band_names.size() > 0)
{
outfile<<"band names = {"<<std::endl;
for(unsigned int i=0; i<band_names.size(); i++)
{
outfile<<band_names[i];
if(i < band_names.size() - 1)
outfile<<", ";
}
outfile<<"}"<<std::endl;
}
//if there is a list of wavelengths, output it
if(wavelength.size()){
outfile<<"wavelength = {"<<std::endl;
for(unsigned int i=0; i<wavelength.size()-1; i++)
outfile<<wavelength[i]<<", ";
outfile<<wavelength.back()<<"}"<<std::endl;
}
outfile.close();
}
void save()
{
//std::cout<<"ENVI Header Name: "<<name<<std::endl;
save(name);
}
//returns the size of a single value (in bytes)
unsigned int valsize()
{
switch(data_type)
{
case int8: //1 = 8-bit byte
return 1;
case int16: //16-bit signed integer
case uint16: //16-bit unsigned integer
return 2;
case int32: //32-bit signed long integer
case float32: //32-bit floating point
case uint32: //32-bit unsigned long integer
return 4;
case float64: //64-bit double-precision floating point
case complex32: //32-bit complex value
case int64: //64-bit signed long integer
case uint64: //64-bit unsigned long integer
return 8;
case complex64: //64-bit complex value
return 16;
default:
return 0;
}
}
}; //end EnviHeader
}
#endif