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IntronRetention.cpp
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IntronRetention.cpp
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#include <iostream>
#include <string>
#include <sstream>
#include <fstream>
#include <cstdlib>
#include <map>
#include <vector>
#include <boost/algorithm/string/split.hpp>
#include <boost/algorithm/string.hpp>
#include <boost/lexical_cast.hpp>
using namespace std;
using namespace boost;
struct JUNCTION {
string chro;
int start;
int end;
};
struct EXON {
string chro;
int start;
int end;
};
struct GPD {
string gname;
string tname;
string chro;
string strand;
int start;
int end;
int cstart;
int cend;
int nblock;
vector<int> vec_exon_start;
vector<int> vec_exon_end;
};
void BuildGPDFromString (string &str, GPD &gpd) {
vector<string> vec_temp;
boost::split(vec_temp, str, boost::is_any_of("\t"));
gpd.gname = vec_temp[0];
gpd.tname = vec_temp[1];
int L = vec_temp[2].length();
gpd.chro = vec_temp[2];
gpd.strand = vec_temp[3];
gpd.start = lexical_cast<int>(vec_temp[4]);
gpd.end = lexical_cast<int>(vec_temp[5]);
gpd.cstart = lexical_cast<int>(vec_temp[6]);
gpd.cend = lexical_cast<int>(vec_temp[7]);
gpd.nblock = lexical_cast<int>(vec_temp[8]);
vector<string> vec1;
boost::split(vec1, vec_temp[9], boost::is_any_of(","));
for(int i = 0; i < vec1.size() - 1; ++i) (gpd.vec_exon_start).push_back(lexical_cast<int>(vec1[i]));
vector<string> vec2;
boost::split(vec2, vec_temp[10], boost::is_any_of(","));
for(int i = 0; i < vec2.size() - 1; ++i) (gpd.vec_exon_end).push_back(lexical_cast<int>(vec2[i]));
}
void OutputJunction (ifstream &inf, ofstream &ouf) {
while(inf){
string strInput;
getline(inf, strInput);
if(strInput.length() > 0){
GPD gpd;
BuildGPDFromString(strInput, gpd);
for(int i = 0; i <= gpd.nblock - 2; ++i) ouf << gpd.gname << '\t' << gpd.chro << '\t' << (gpd.vec_exon_end[i] + 1) << '\t' << (gpd.vec_exon_start[i + 1] - 1) << endl;
}
}
}
int compare_junction_sort (const void *a, const void *b) {
if( (*(JUNCTION*) a).chro > (*(JUNCTION*) b).chro ) return 1;
else if ( (*(JUNCTION*) a).chro == (*(JUNCTION*) b).chro ){
if( (*(JUNCTION*) a).start > (*(JUNCTION*) b).start ) return 1;
else return -1;
}
else return -1;
}
int compare_junction_exon (JUNCTION a, EXON b) {
if(a.chro > b.chro) return 1;
else if (a.chro == b.chro){
if(a.start > b.start ) return 1;
else return -1;
}
else return -1;
}
vector<JUNCTION> BuildJunctionVector (ifstream &inf) {
vector<JUNCTION> junction_vec;
while(inf){
string strInput;
getline(inf, strInput);
if(strInput.length() > 0){
vector<string> vec;
split(vec, strInput, is_any_of("\t"));
JUNCTION junction;
junction.chro = vec[1];
junction.start = lexical_cast<int>(vec[2]);
junction.end = lexical_cast<int>(vec[3]);
junction_vec.push_back(junction);
}
}
qsort(&junction_vec[0], junction_vec.size(), sizeof(JUNCTION), compare_junction_sort);
return junction_vec;
}
int BinarySearch (vector<JUNCTION> &junction_vec, EXON query) {
int up = 0;
int down = junction_vec.size() - 1;
while(down - up > 1){
int middle = (up + down) / 2;
if(compare_junction_exon(junction_vec[middle], query) == 1) down = middle;
else up = middle;
}
return up;
}
bool Covered (JUNCTION a, EXON b) {
bool covered = false;
if(a.chro == b.chro && a.start > b.start && a.end < b.end) covered = true;
return covered;
}
int main (int argc, char **argv) {
cerr << "IntronRetention <RefSeq.gpd> <query.gpd>" << endl;
ifstream refseqinf(argv[1]);
ifstream inf(argv[2]);
ofstream ouf("ALL_JUNCTIONS", ios::trunc);
OutputJunction(refseqinf, ouf);
char command_merge[1000];
sprintf(command_merge, "sort -u ALL_JUNCTIONS > JUNCTIONS");
system(command_merge);
ifstream mergedinf("JUNCTIONS");
vector<JUNCTION> junction_vec = BuildJunctionVector(mergedinf);
while(inf){
string strInput;
getline(inf, strInput);
if(strInput.length() > 0){
GPD gpd;
BuildGPDFromString(strInput, gpd);
for(int i = 0; i < gpd.nblock; ++i){
EXON query;
query.chro = gpd.chro;
query.start = gpd.vec_exon_start[i];
query.end = gpd.vec_exon_end[i];
int locate = BinarySearch(junction_vec,query);
bool covered = Covered(junction_vec[locate], query);
int down_locate = locate;
while(down_locate < junction_vec.size() - 1){
++down_locate;
if(junction_vec[down_locate].chro != query.chro || junction_vec[down_locate].start > query.end + 10000) break;
else{
covered = Covered(junction_vec[down_locate], query);
}
}
int up_locate = locate;
while(up_locate > 0){
--up_locate;
if(junction_vec[up_locate].chro != query.chro || query.start - junction_vec[up_locate].end > 10000) break;
else{
covered = Covered(junction_vec[down_locate], query);
}
}
if(covered) cout << gpd.gname << '\t' << gpd.tname << '\t' << (i + 1) << endl;
}
}
}
refseqinf.close(); inf.close(); ouf.close();
return 0;
}