Taking the better range finding functions from BP and DB analyses, added a size check.
Only affects one or two pixels per module.
This commit is contained in:
redford_s
@ -18,36 +18,52 @@
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#include <algorithm>
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#include <sstream>
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double lowestFullySwitchedPoint(const vector<double> &higher_filter, const vector<double> &lower_filter) {
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double highestPointBeforeSwitching(const vector<double> &lower_filter, const vector<double> &higher_filter) {
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// find the lowest value in higher_filter that does not appear in lower_filter
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double lowest_fully_switched_val = *max_element(higher_filter.begin(),higher_filter.end())+1;
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double highest_point_before_switching;
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for(vector<double>::const_iterator it = higher_filter.begin(); it != higher_filter.end(); ++it) {
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if (find(lower_filter.begin(), lower_filter.end(), *it) == lower_filter.end()) {
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if (*it < lowest_fully_switched_val) {
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lowest_fully_switched_val = *it;
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if (higher_filter.size() > 0) {
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// find the highest value in lower_filter that is lower than all entries in higher_filter
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highest_point_before_switching = *min_element(lower_filter.begin(),lower_filter.end())-1;
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double lowest_entry_in_higher_filter = *min_element(higher_filter.begin(),higher_filter.end());
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for(vector<double>::const_iterator it = lower_filter.begin(); it != lower_filter.end(); ++it) {
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if (*it < lowest_entry_in_higher_filter) {
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if (*it > highest_point_before_switching) {
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highest_point_before_switching = *it;
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}
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}
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}
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} else {
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highest_point_before_switching = *max_element(lower_filter.begin(),lower_filter.end());
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}
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return lowest_fully_switched_val;
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return highest_point_before_switching;
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}
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double highestFullySwitchedPoint(const vector<double> &lower_filter, const vector<double> &higher_filter) {
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double lowestPointAfterSwitching(const vector<double> &higher_filter, const vector<double> &lower_filter) {
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// find the highest value in lower_filter that does not appear in higher_filter
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double highest_fully_switched_val = *min_element(lower_filter.begin(),lower_filter.end())-1;
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double lowest_point_after_switching;
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for(vector<double>::const_iterator it = lower_filter.begin(); it != lower_filter.end(); ++it) {
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if (find(higher_filter.begin(), higher_filter.end(), *it) == higher_filter.end()) {
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if (*it > highest_fully_switched_val) {
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highest_fully_switched_val = *it;
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if (lower_filter.size() > 0) {
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// find the lowest value in higher_filter that is higher than all entries in lower_filter
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lowest_point_after_switching = *max_element(higher_filter.begin(),higher_filter.end())+1;
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double highest_entry_in_lower_filter = *max_element(lower_filter.begin(),lower_filter.end());
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for(vector<double>::const_iterator it = higher_filter.begin(); it != higher_filter.end(); ++it) {
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if (*it > highest_entry_in_lower_filter) {
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if (*it < lowest_point_after_switching) {
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lowest_point_after_switching = *it;
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}
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}
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}
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} else {
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lowest_point_after_switching = *min_element(higher_filter.begin(),higher_filter.end());
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}
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return highest_fully_switched_val;
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return lowest_point_after_switching;
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}
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double checkRangeMinForRCEffect(double range_min) {
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@ -1081,7 +1097,7 @@ int main(int argc, char* argv[]) {
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rangemin_g0 = *min_element(r0_filter.begin(),r0_filter.end());
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rangemin_g0 = checkRangeMinForRCEffect(rangemin_g0);
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rangemax_g0 = highestFullySwitchedPoint(r0_filter, r1_filter);
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rangemax_g0 = highestPointBeforeSwitching(r0_filter, r1_filter);
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if (rangemax_g0 > rangemin_g0) {
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@ -1173,10 +1189,10 @@ int main(int argc, char* argv[]) {
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if (r1_adc.size() > 1) {
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rangemin_g1 = lowestFullySwitchedPoint(r1_filter, r0_filter);
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rangemin_g1 = lowestPointAfterSwitching(r1_filter, r0_filter);
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rangemin_g1 = checkRangeMinForRCEffect(rangemin_g1);
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rangemax_g1 = highestFullySwitchedPoint(r1_filter, r2_filter);
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rangemax_g1 = highestPointBeforeSwitching(r1_filter, r2_filter);
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if (rangemax_g1 > rangemin_g1) {
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@ -1293,7 +1309,7 @@ int main(int argc, char* argv[]) {
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if (r2_adc.size() > 1) {
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rangemin_g2 = lowestFullySwitchedPoint(r2_filter, r1_filter);
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rangemin_g2 = lowestPointAfterSwitching(r2_filter, r1_filter);
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rangemin_g2 = checkRangeMinForRCEffect(rangemin_g2);
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rangemax_g2 = *max_element(r2_filter.begin(),r2_filter.end());
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@ -1553,14 +1569,16 @@ int main(int argc, char* argv[]) {
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g0overg1hist->Draw();
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c1->Update();
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TF1* g0overg1hist_gaus = g0overg1hist->GetFunction("gaus");
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sprintf(savename,"Mean %0.4f #pm %0.4f", g0overg1hist_gaus->GetParameter(1), g0overg1hist_gaus->GetParError(1));
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pave2->AddText((const char *)(savename));
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sprintf(savename,"Sigma %0.4f #pm %0.4f", g0overg1hist_gaus->GetParameter(2), g0overg1hist_gaus->GetParError(2));
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pave2->AddText((const char *)(savename));
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pave2->Draw();
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g0overg1hist->SetStats(kFALSE);
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sprintf(savename,"plots/M%s/CurrentSource/g0overg1hist_fit_M%s.png", module_str.c_str(), module_str.c_str());
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c1->SaveAs((const char *)(savename));
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if (g0overg1hist_gaus) {
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sprintf(savename,"Mean %0.4f #pm %0.4f", g0overg1hist_gaus->GetParameter(1), g0overg1hist_gaus->GetParError(1));
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pave2->AddText((const char *)(savename));
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sprintf(savename,"Sigma %0.4f #pm %0.4f", g0overg1hist_gaus->GetParameter(2), g0overg1hist_gaus->GetParError(2));
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pave2->AddText((const char *)(savename));
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pave2->Draw();
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g0overg1hist->SetStats(kFALSE);
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sprintf(savename,"plots/M%s/CurrentSource/g0overg1hist_fit_M%s.png", module_str.c_str(), module_str.c_str());
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c1->SaveAs((const char *)(savename));
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}
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g0overg1erhist->GetXaxis()->SetTitle("G0 / G1 uncert");
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g0overg1erhist->GetXaxis()->SetTitleOffset(1.1);
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@ -1621,14 +1639,16 @@ int main(int argc, char* argv[]) {
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g1overg2hist->Draw();
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c1->Update();
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TF1* g1overg2hist_gaus = g1overg2hist->GetFunction("gaus");
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sprintf(savename,"Mean %0.4f #pm %0.4f", g1overg2hist_gaus->GetParameter(1), g1overg2hist_gaus->GetParError(1));
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pave2->AddText((const char *)(savename));
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sprintf(savename,"Sigma %0.4f #pm %0.4f", g1overg2hist_gaus->GetParameter(2), g1overg2hist_gaus->GetParError(2));
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pave2->AddText((const char *)(savename));
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pave2->Draw();
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g1overg2hist->SetStats(kFALSE);
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sprintf(savename,"plots/M%s/CurrentSource/g1overg2hist_fit_M%s.png", module_str.c_str(), module_str.c_str());
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c1->SaveAs((const char *)(savename));
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if (g1overg2hist_gaus) {
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sprintf(savename,"Mean %0.4f #pm %0.4f", g1overg2hist_gaus->GetParameter(1), g1overg2hist_gaus->GetParError(1));
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pave2->AddText((const char *)(savename));
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sprintf(savename,"Sigma %0.4f #pm %0.4f", g1overg2hist_gaus->GetParameter(2), g1overg2hist_gaus->GetParError(2));
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pave2->AddText((const char *)(savename));
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pave2->Draw();
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g1overg2hist->SetStats(kFALSE);
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sprintf(savename,"plots/M%s/CurrentSource/g1overg2hist_fit_M%s.png", module_str.c_str(), module_str.c_str());
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c1->SaveAs((const char *)(savename));
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}
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g1overg2erhist->GetXaxis()->SetTitle("G1 / G2 uncert");
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g1overg2erhist->GetXaxis()->SetTitleOffset(1.1);
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