int getWindowSize(string str1, string str2) { std::map<char, int> myStr2; for (int i=0; i< str2.length(); i++) myStr2.insert(std::pair<char, int>(str2[i], -1)); printMap(myStr2); int minWin = 100; std::map<char, int>::const_iterator it; for (int i=0; i< str1.length(); i++) { it = myStr2.find(str1[i]); if (it!= myStr2.end()) { myStr2.erase(str1[i]); myStr2.insert(std::pair<char, int>(str1[i], i)); int tmpMin = getMinIndex(myStr2); if (minWin > (i-tmpMin+1) && tmpMin!=-1) { minWin = i-tmpMin+1; std::cout<<"minWin...." << minWin <<"\n"; } printMap(myStr2); } } return minWin; }
static Eina_Bool storage_item_write(AppData *ad, CNP_ITEM *item) { CALLED(); StorageData *sd = ad->storage; int index = getMinIndex(sd->indexTable, STORAGE_ITEM_CNT); sd->indexTable[index] = ecore_time_unix_get(); sd->itemTable[index] = item; item_write(sd->ef, index, item); storage_index_write(sd); dump_items(sd); return EINA_TRUE; }
void printResultsSubString(Array<Array<double> >& results, Array<Array<char> >& sourcedata, Array<Array<char> >& templatedata) { int i; double value; cout << "**simil\t**simxrf" << endl; int len = xlen; if (len <= 0) { len = templatedata.getSize(); } int maxi; for (i=0; i<results.getSize(); i++) { maxi = getMinIndex(results[i]); value = results[i][maxi]; if (rawQ) { cout << value; } else if (scalingQ) { value = normalize1(value, len); value = int(value * 100.0 + 0.5) / 100.0; printf("%.2lf", value); } else { value = int(value * 100.0 + 0.5) / 100.0; value = normalize2(value, len); printf("%.2lf", value); } cout << "\t"; printSubStringInfo(results[i], results[i][maxi]); cout << "\n"; } // int dots = templatedata.getSize() - 1; int dots = xlen - 1; for (i=0; i<dots; i++) { cout << ".\t.\n"; } cout << "*-\t*-" << endl; }
void SVMAnalysis::Evaluation() { std::cout<<"SVMAnalysis::Evaluation"<<std::endl; float count=0; int consensus; this->Total_Response = this->Total_Response.t(); std::cout<<this->Total_Response.rows<<"x"<<this->Total_Response.cols <<std::endl; for (int i = 0; i <this->Total_Response.rows ; ++i) { consensus = getMinIndex(this->Total_Response.row(i)); if(consensus == this->testLabels.at<int>(i)) count++; this->Consensus.push_back(consensus); } std::cout<<"counter classification rate : "<<count/this->testLabels.rows*100<< "%"<<std::endl; // Evaluator evaluator(this->Consensus,this->testLabels,"SVM"); // std::cout<<"classification rate : "<<evaluator.getAccuracy()<< "%"<<std::endl; // this->allQuadrabtsResponse.push_back(); std::cout<<"\n Consensus: "<<this->Consensus.rows<<"\n"<<std::endl; }
template <class T> const T& Grid2<T>::getMinValue() const { vec2ul index = getMinIndex(); return m_data[index.y * m_dimX + index.x]; }