}else { //user wants random distribution
savetmap = globaldata->gTreemap;
getUserInput();
- parsFile = randomtree + ".rd_parsimony";
- openOutputFile(parsFile, out);
+ parsFile = randomtree;
+ parsFileout = globaldata->getTreeFile() + "temp";
}
//set users groups to analyze
/***********************************************************/
int ParsimonyCommand::execute() {
try {
-
+ Progress* reading;
+ reading = new Progress("Comparing to random:", iters);
+
//get pscore for users tree
userData.resize(numComp,0); //data = AB, AC, BC, ABC.
randomData.resize(numComp,0); //data = AB, AC, BC, ABC.
if (randomtree == "") {
//get pscores for users trees
for (int i = 0; i < T.size(); i++) {
- cout << "Processing tree " << i+1 << endl;
userData = pars->getValues(T[i]); //data = AB, AC, BC, ABC.
-
+
//output scores for each combination
for(int k = 0; k < numComp; k++) {
+
//update uscoreFreq
it = uscoreFreq[k].find(userData[k]);
if (it == uscoreFreq[k].end()) {//new score
for (int j = 0; j < iters; j++) {
//create new tree with same num nodes and leaves as users
randT = new Tree();
+
//create random relationships between nodes
randT->assembleRandomTree();
+
//get pscore of random tree
randomData = pars->getValues(randT);
-
+
for(int r = 0; r < numComp; r++) {
//add trees pscore to map of scores
it2 = rscoreFreq[r].find(randomData[r]);
validScores[randomData[r]] = randomData[r];
}
+ //update progress bar
+ reading->update(j);
+
delete randT;
}
+
}else {
//get pscores for random trees
for (int j = 0; j < iters; j++) {
//create new tree with same num nodes and leaves as users
randT = new Tree();
//create random relationships between nodes
+
randT->assembleRandomTree();
+
//get pscore of random tree
randomData = pars->getValues(randT);
-
+
for(int r = 0; r < numComp; r++) {
//add trees pscore to map of scores
it2 = rscoreFreq[r].find(randomData[r]);
validScores[randomData[r]] = randomData[r];
}
+ //update progress bar
+ reading->update(j);
+
delete randT;
}
}
-
+
for(int a = 0; a < numComp; a++) {
float rcumul = 0.0000;
float ucumul = 0.0000;
}
}
+ //finish progress bar
+ reading->finish();
+ delete reading;
+
+
printParsimonyFile();
if (randomtree == "") { printUSummaryFile(); }
//reset globaldata's treemap if you just did random distrib
- if (randomtree != "") { globaldata->gTreemap = savetmap; }
+ if (randomtree != "") {
+ //memory leak prevention
+ //if (globaldata->gTreemap != NULL) { delete globaldata->gTreemap; }
+ globaldata->gTreemap = savetmap;
+ }
//reset randomTree parameter to ""
globaldata->setRandomTree("");
void ParsimonyCommand::printUSummaryFile() {
try {
//column headers
- outSum << "Tree#" << '\t' << "Comb" << '\t' << "ParsScore" << '\t' << '\t' << "ParsSig" << endl;
+ outSum << "Tree#" << '\t' << "Groups" << '\t' << "ParsScore" << '\t' << "ParsSig" << endl;
+ cout << "Tree#" << '\t' << "Groups" << '\t' << "ParsScore" << '\t' << "ParsSig" << endl;
//format output
outSum.setf(ios::fixed, ios::floatfield); outSum.setf(ios::showpoint);
//print each line
for (int i = 0; i< T.size(); i++) {
for(int a = 0; a < numComp; a++) {
- outSum << setprecision(globaldata->getIters().length()) << i+1 << '\t' << groupComb[a] << '\t' << '\t' << userTreeScores[a][i] << '\t' << UScoreSig[a][i] << endl;
- cout << setprecision(globaldata->getIters().length()) << i+1 << '\t' << groupComb[a] << '\t' << '\t' << userTreeScores[a][i] << '\t' << UScoreSig[a][i] << endl;
+ if (UScoreSig[a][i] > (1/(float)iters)) {
+ outSum << setprecision(6) << i+1 << '\t' << groupComb[a] << '\t' << userTreeScores[a][i] << setprecision(globaldata->getIters().length()) << '\t' << UScoreSig[a][i] << endl;
+ cout << setprecision(6) << i+1 << '\t' << groupComb[a] << '\t' << userTreeScores[a][i] << setprecision(globaldata->getIters().length()) << '\t' << UScoreSig[a][i] << endl;
+ }else {
+ outSum << setprecision(6) << i+1 << '\t' << groupComb[a] << '\t' << userTreeScores[a][i] << setprecision(globaldata->getIters().length()) << '\t' << "<" << (1/float(iters)) << endl;
+ cout << setprecision(6) << i+1 << '\t' << groupComb[a] << '\t' << userTreeScores[a][i] << setprecision(globaldata->getIters().length()) << '\t' << "<" << (1/float(iters)) << endl;
+ }
}
}
getline(cin, s);
//save tmap for later
+ //memory leak prevention
+ //if (globaldata->gTreemap != NULL) { delete globaldata->gTreemap; }
globaldata->gTreemap = tmap;
}
for (int i = 0; i < tmap->namesOfGroups.size(); i++) {
globaldata->Groups.push_back(tmap->namesOfGroups[i]);
numGroups++;
- allGroups += tmap->namesOfGroups[i];
+ allGroups += tmap->namesOfGroups[i] + "-";
}
+ allGroups = allGroups.substr(0, allGroups.length()-1);
}else {
for (int i = 0; i < globaldata->Groups.size(); i++) {
- allGroups += tmap->namesOfGroups[i];
+ allGroups += globaldata->Groups[i] + "-";
numGroups++;
}
+ allGroups = allGroups.substr(0, allGroups.length()-1);
}
}else{//user has enter "all" and wants the default groups
+ globaldata->Groups.clear();
for (int i = 0; i < tmap->namesOfGroups.size(); i++) {
globaldata->Groups.push_back(tmap->namesOfGroups[i]);
numGroups++;
- allGroups += tmap->namesOfGroups[i];
+ allGroups += tmap->namesOfGroups[i] + "-";
}
+ allGroups = allGroups.substr(0, allGroups.length()-1);
globaldata->setGroups("");
}
}else {
for (int i = 0; i < tmap->namesOfGroups.size(); i++) {
- allGroups += tmap->namesOfGroups[i];
+ allGroups += tmap->namesOfGroups[i] + "-";
}
+ allGroups = allGroups.substr(0, allGroups.length()-1);
numGroups = 1;
}
numComp = 0;
for (int r=0; r<numGroups; r++) {
for (int l = r+1; l < numGroups; l++) {
- groupComb.push_back(globaldata->Groups[r]+globaldata->Groups[l]);
+ groupComb.push_back(globaldata->Groups[r]+ "-" +globaldata->Groups[l]);
numComp++;
}
}
if (randomtree == "") {
out << inputBuffer << '\t' << label + "Score" << '\t' << label + "UserFreq" << '\t' << label + "UserCumul" << '\t' << label + "RandFreq" << '\t' << label + "RandCumul" << endl;
}else {
- out << inputBuffer << '\t' << label + "Score" << '\t' << label + "RandFreq" << '\t' << label + "RandCumul" << endl;
+ out << inputBuffer << '\t' << "Score" << '\t' << "RandFreq" << '\t' << "RandCumul" << endl;
}
}else{
openOutputFile(parsFileout, out);
if (randomtree == "") {
out << label + "Score" << '\t' << label + "UserFreq" << '\t' << label + "UserCumul" << '\t' << label + "RandFreq" << '\t' << label + "RandCumul" << endl;
}else {
- out << label + "Score" << '\t' << label + "RandFreq" << '\t' << label + "RandCumul" << endl;
+ out << "Score" << '\t' << "RandFreq" << '\t' << "RandCumul" << endl;
}
}
getline(inFile, inputBuffer);
if (randomtree == "") {
- out << inputBuffer << '\t' << setprecision(globaldata->getIters().length()) << data[0] << '\t' << data[1] << '\t' << data[2] << '\t' << data[3] << '\t' << data[4] << endl;
+ out << inputBuffer << '\t' << setprecision(6) << data[0] << setprecision(globaldata->getIters().length()) << '\t' << data[1] << '\t' << data[2] << '\t' << data[3] << '\t' << data[4] << endl;
}else{
- out << inputBuffer << '\t' << setprecision(globaldata->getIters().length()) << data[0] << '\t' << data[1] << '\t' << data[2] << endl;
+ out << inputBuffer << '\t' << setprecision(6) << data[0] << setprecision(globaldata->getIters().length()) << '\t' << data[1] << '\t' << data[2] << endl;
}
}
else{
if (randomtree == "") {
- out << setprecision(globaldata->getIters().length()) << data[0] << '\t' << data[1] << '\t' << data[2] << '\t' << data[3] << '\t' << data[4] << endl;
+ out << setprecision(6) << data[0] << setprecision(globaldata->getIters().length()) << '\t' << data[1] << '\t' << data[2] << '\t' << data[3] << '\t' << data[4] << endl;
}else{
- out << setprecision(globaldata->getIters().length()) << data[0] << '\t' << data[1] << '\t' << data[2] << endl;
+ out << setprecision(6) << data[0] << setprecision(globaldata->getIters().length()) << '\t' << data[1] << '\t' << data[2] << endl;
}
}