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IOfunc.hpp
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IOfunc.hpp
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#include <fstream>
#include <string>
#include <vector>
#include <iostream>
#include <cmath>
// struct containing command line parameters and other globals
struct Args {
std::string filename = "";
std::string outname = "";
int format = 0; // input file format: 0 fasta | 1 fastq
int variant = 0; // bwt variant: 0 optBWT | 1 inputBWT | 2 inputBWT + SAP
bool verbose = false; // verbosity level
};
// function to load a fasta file
template<typename uint_s>
void load_fasta(const char *filename, std::vector<char>& Text, std::vector<uint_s>& onset,
uint_s& sum, uint_s& ns, bool concat){
// open the input stream
std::ifstream input(filename);
if(!input.good()) { // exit if we cannot open the stream
std::cerr << "Error opening " << filename << ". exiting..." << std::endl;
exit(-1);
}
// resize the input vector
input.seekg(0, std::ios::end);
Text.resize(input.tellg());
input.seekg(0, std::ios::beg);
// check input file size
#if M64 == 0
// if we are in 32 bit mode, check that parse has less than 2^32-2 words
if(Text.size() > pow(2,32) - 1){
// the input file is too big
std::cerr << "Error, the file size is > 4.29 GB, please use ./optsais64. exiting..." << std::endl;
exit(-1);
}
#endif
// start reading line by line
std::string line, DNA_sequence;
sum = 0, ns = 0;
while(std::getline(input, line)) {
// skip empty lines
if(line.empty()){ continue; }
// header of a new sequence
if (line[0] == '>') {
ns++; // increase sequence count
size_t seqlen = DNA_sequence.size();
// insert previous DNA sequence
if(seqlen > 0){
// copy new sequence in Text
memcpy(&Text[sum],&DNA_sequence[0],seqlen);
// increase current text size
sum += seqlen;
// if asked compute the concatenation
if( concat ){
// add separator
Text[sum++] = 1;
}
// insert new offset
onset.push_back(sum);
}
// the current DNA sequence
DNA_sequence.clear();
}
else {
// add new line
DNA_sequence += line;
}
}
// insert last sequence
memcpy(&Text[sum],&DNA_sequence[0],DNA_sequence.size());
sum += DNA_sequence.size();
if( concat ){ Text[sum++] = 1; }
onset.push_back(sum);
// resize Text to the correct size
Text.resize(sum);
Text.shrink_to_fit();
// close stream
input.close();
}
// function to load a fastq file
template<typename uint_s>
void load_fastq(const char *filename, std::vector<char>& Text, std::vector<uint_s>& onset,
uint_s& sum, uint_s& ns, bool concat){
// open the input stream
std::ifstream input(filename);
if(!input.good()) { // exit if we cannot open the stream
std::cerr << "Error opening " << filename << ". exiting..." << std::endl;
exit(-1);
}
// resize the input vector
input.seekg(0, std::ios::end);
Text.resize(input.tellg());
input.seekg(0, std::ios::beg);
// check input file size
#if P64 == 0
// if we are in 32 bit mode, check that parse has less than 2^32-2 words
if(Text.size() > pow(2,32) - 1){
// the input file is too big
std::cerr << "Error, the file size is > 4.29 GB, please use ./optsais64. exiting..." << std::endl;
exit(-1);
}
#endif
// start reading line by line
std::string line, DNA_sequence;
sum = 0, ns = 0;
char last = ' ';
while(std::getline(input, line)) {
// skip empty lines
if(line.empty()){ continue; }
// header of a new sequence
if (line[0] == '@') {
last = '@'; // last identifier seen
ns++; // increase sequence count
size_t seqlen = DNA_sequence.size();
// insert previous DNA sequence
if(seqlen > 0){
// copy new sequence in Text
memcpy(&Text[sum],&DNA_sequence[0],seqlen);
// increase current text size
sum += seqlen;
// if asked compute the concatenation
if( concat ){
// add separator
Text[sum++] = 1;
}
// insert new offset
onset.push_back(sum);
}
// the current DNA sequence
DNA_sequence.clear();
}
else if (line[0] == '+'){
// qualities line beginning
last = '+';
}
else {
// add new line
if(last == '@') DNA_sequence += line;
}
}
// insert last sequence
memcpy(&Text[sum],&DNA_sequence[0],DNA_sequence.size());
sum += DNA_sequence.size();
if( concat ){ Text[sum++] = 1; }
onset.push_back(sum);
// resize Text to the correct size
Text.resize(sum);
Text.shrink_to_fit();
// close stream
input.close();
}
// function to load a fasta file
template<typename uint_s>
void load_fasta_conc(const char *filename, std::vector<char>& Text, uint_s& sum, uint_s& ns){
// open the input stream
std::ifstream input(filename);
if(!input.good()) { // exit if we cannot open the stream
std::cerr << "Error opening " << filename << ". exiting..." << std::endl;
exit(-1);
}
// resize the input vector
input.seekg(0, std::ios::end);
Text.resize(input.tellg());
input.seekg(0, std::ios::beg);
// check input file size
#if M64 == 0
// if we are in 32 bit mode, check that parse has less than 2^32-2 words
if(Text.size() > pow(2,32) - 1){
// the input file is too big
std::cerr << "Error, the file size is > 4.29 GB, please use ./optsais64. exiting..." << std::endl;
exit(-1);
}
#endif
// start reading line by line
std::string line, DNA_sequence;
sum = 0, ns = 0;
while(std::getline(input, line)) {
// skip empty lines
if(line.empty()){ continue; }
// header of a new sequence
if (line[0] == '>') {
ns++; // increase sequence count
size_t seqlen = DNA_sequence.size();
// insert previous DNA sequence
if(seqlen > 0){
// copy new sequence in Text
memcpy(&Text[sum],&DNA_sequence[0],seqlen);
// increase current text size
sum += seqlen;
// add separator
Text[sum++] = 1;
}
// the current DNA sequence
DNA_sequence.clear();
}
else {
// add new line
DNA_sequence += line;
}
}
// insert last sequence
memcpy(&Text[sum],&DNA_sequence[0],DNA_sequence.size());
sum += DNA_sequence.size();
Text[sum++] = 1;
// resize Text to the correct size
Text.resize(sum);
Text.shrink_to_fit();
// close stream
input.close();
}
// function to load a fastq file
template<typename uint_s>
void load_fastq_conc(const char *filename, std::vector<char>& Text, uint_s& sum, uint_s& ns){
// open the input stream
std::ifstream input(filename);
if(!input.good()) { // exit if we cannot open the stream
std::cerr << "Error opening " << filename << ". exiting..." << std::endl;
exit(-1);
}
// resize the input vector
input.seekg(0, std::ios::end);
Text.resize(input.tellg());
input.seekg(0, std::ios::beg);
// check input file size
#if M64 == 0
// if we are in 32 bit mode, check that parse has less than 2^32-2 words
if(Text.size() > pow(2,32) - 1){
// the input file is too big
std::cerr << "Error, the file size is > 4.29 GB, please use ./optsais64. exiting..." << std::endl;
exit(-1);
}
#endif
// start reading line by line
std::string line, DNA_sequence;
sum = 0, ns = 0;
char last = ' ';
while(std::getline(input, line)) {
// skip empty lines
if(line.empty()){ continue; }
// header of a new sequence
if (line[0] == '@') {
last = '@'; // last identifier seen
ns++; // increase sequence count
size_t seqlen = DNA_sequence.size();
// insert previous DNA sequence
if(seqlen > 0){
// copy new sequence in Text
memcpy(&Text[sum],&DNA_sequence[0],seqlen);
// increase current text size
sum += seqlen;
// add separator
Text[sum++] = 1;
}
// the current DNA sequence
DNA_sequence.clear();
}
else if (line[0] == '+'){
// qualities line beginning
last = '+';
}
else {
// add new line
if(last == '@') DNA_sequence += line;
}
}
// insert last sequence
memcpy(&Text[sum],&DNA_sequence[0],DNA_sequence.size());
sum += DNA_sequence.size();
Text[sum++] = 1;
// resize Text to the correct size
Text.resize(sum);
Text.shrink_to_fit();
// close stream
input.close();
}
// function to load file as a single text
template<typename uint_s>
void load_text(const char *filename, std::vector<char>& Text, uint_s& size){
// open the input stream
std::ifstream input(filename);
if(!input.good()) { // exit if we cannot open the stream
std::cerr << "Error opening " << filename << ". exiting..." << std::endl;
exit(-1);
}
// resize the input vector
input.seekg(0, std::ios::end);
size = input.tellg();
std::cout << size << std::endl;
Text.resize(size);
std::cout << size << std::endl;
input.seekg(0, std::ios::beg);
// check input file size
#if M64 == 0
// if we are in 32 bit mode, check that parse has less than 2^32-2 words
if(Text.size() > pow(2,32) - 1){
// the input file is too big
std::cerr << "Error, the file size is > 4.29 GB, please use ./optsais64. exiting..." << std::endl;
exit(-1);
}
#endif
// read all the file
input.read(reinterpret_cast<char*>(&Text[0]), size);
// close stream
input.close();
}