// // Created by mpapa on 05.12.2017. // #include "DestructionPower.h" //TODO! Add more layers here! //sets relations of speed for the different layers map DestructionPower_Properties::SpeedTable = { {0,0.99}, {1,0.7}, {2,0.7} }; bool DestructionPower::PreProcessing(coor mySize,const vector* partArray) { cout << "DestructionPower Preprocessing... "; InitialiseConstraintMatrixSize(mySize.col,mySize.row); cout << "Done!" << endl; return true; } //it through qualityVector and removes all that do not trigger PlaceOfPartGood bool DestructionPower::EvaluateQuality (const coor constraintCoordinate, qualityVector& qVector) { } bool DestructionPower::SetConstraintOnPosition(const coor constraintCoordinate, const DestructionPower_Properties constraint) { } bool DestructionPower::RemoveConstraintOnPosition(const coor constraintCoordinate) { } //gets destruction power from left and from top if possible and normalizes void DestructionPower::DestructionOfSurrounding(const coor constraintCoordinate) { for (int i = 0; i < DESTRUCTION_COUNT; ++i) { m_constraintMatrix[constraintCoordinate.col][constraintCoordinate.row].DestructionArray.push_back(0); int divisor=0; if(constraintCoordinate.row > 0) { divisor++; m_constraintMatrix[constraintCoordinate.col][constraintCoordinate.row].DestructionArray[i] += m_constraintMatrix[constraintCoordinate.col][constraintCoordinate.row-1].DestructionArray[i]; } if(constraintCoordinate.col > 0) { divisor++; m_constraintMatrix[constraintCoordinate.col][constraintCoordinate.row].DestructionArray[i] += m_constraintMatrix[constraintCoordinate.col-1][constraintCoordinate.row].DestructionArray[i]; } if(divisor) m_constraintMatrix[constraintCoordinate.col][constraintCoordinate.row].DestructionArray[i] /=divisor; else //create default destructionPower //TODO find some better solution for default m_constraintMatrix[constraintCoordinate.col][constraintCoordinate.row].DestructionArray[i] = m_constraintMatrix[constraintCoordinate.col][constraintCoordinate.row].SpeedTable[i]; } } float DestructionPower::defaultDestructionPower(int i) { } //gets next highest valued abstraction layer down from current one (if first, get highest) int DestructionPower::getNextAbstractionLayer(coor newCoordinate, int currentAbstractionLayer) { float currentPower = 1; int nextLayer=-1; float nextLayerPower=0; if (currentAbstractionLayer>=0) currentPower = m_constraintMatrix[newCoordinate.col][newCoordinate.row].DestructionArray[currentAbstractionLayer]; int i=0; //giff next most valuable layer for(auto it:m_constraintMatrix[newCoordinate.col][newCoordinate.row].DestructionArray) { if(it <= currentPower) {//if equal, then has to be the next one (activated from left to right) if(it == currentPower) { if (i > currentAbstractionLayer) return i; } //if this one is bigger than previous biggest one, save else if(it>nextLayerPower) { nextLayerPower=it; nextLayer=i; } } i++; } return nextLayer; } DestructionPower_Properties::DestructionPower_Properties() { float aging=1.001; for(int i=0;i