Exemple #1
0
  /* Returns whether or not the tails of the lanes not being accesible by the given array of Signs are free */
  public boolean areOtherTailsFree(Sign[] mayUse) {
    boolean[] pos = new boolean[4];
    Road[] roads = getAllRoads();
    Drivelane lane;
    int thisRoad;
    boolean[] targets;

    for (int i = 0; i < 4; i++) pos[i] = true;

    int num_mayuse = mayUse.length;

    for (int i = 0; i < num_mayuse; i++) {
      lane = mayUse[i].getLane();
      try {
        thisRoad = isConnectedAt(lane.getRoad());
      } catch (InfraException e) {
        thisRoad = 0;
        System.out.println("Something went wrong in areOtherTailsFree()");
      }
      targets = lane.getTargets();

      if (targets[0]) {
        pos[(thisRoad + 1) % 4] = false;
      } else if (targets[1]) {
        pos[(thisRoad + 2) % 4] = false;
      } else if (targets[2]) {
        pos[(thisRoad + 3) % 4] = false;
      }
    }

    int num_check = 0;
    for (int i = 0; i < 4; i++) {
      if (pos[i] && roads[i] != null) {
        Drivelane[] check = new Drivelane[0];
        try {
          check = roads[i].getOutboundLanes(this);
        } catch (Exception e) {
          check = new Drivelane[0];
          System.out.println("Something went wrong in areOtherTailsFree() 2");
        }

        num_check = check.length;
        for (int j = 0; j < num_check; j++) {
          if (!check[j].isTailFree()) {
            return false;
          }
        }
      }
    }
    return true;
  }
Exemple #2
0
  /* Needs Testing! */
  public Drivelane[] getLanesLeadingFrom(Drivelane lane, int ruType) throws InfraException {
    Road road = lane.getRoad();
    // Road[] which will contain the Roads of this Node in a sorted fashion:
    // [0] == the drivelanes on this Road will have to turn left to get to 'road', ..
    Road[] srt_rarr = new Road[3];

    if (allRoads[0] == road) {
      srt_rarr[0] = allRoads[1]; // Must turn left
      srt_rarr[1] = allRoads[2]; // Must go straight on
      srt_rarr[2] = allRoads[3]; // Must turn right
    } else if (allRoads[1] == road) {
      srt_rarr[0] = allRoads[2];
      srt_rarr[1] = allRoads[3];
      srt_rarr[2] = allRoads[0];
    } else if (allRoads[2] == road) {
      srt_rarr[0] = allRoads[3];
      srt_rarr[1] = allRoads[0];
      srt_rarr[2] = allRoads[1];
    } else {
      srt_rarr[0] = allRoads[0];
      srt_rarr[1] = allRoads[1];
      srt_rarr[2] = allRoads[2];
    }

    // System.out.println("Junction getLanesLeadingFrom "+nodeId);
    Vector v = new Vector();
    Drivelane[] lanes;
    int num_lanes;
    int cnt_lanes = 0;
    boolean[] targets = lane.getTargets();

    for (int i = 0; i < 3; i++) {
      if (srt_rarr[i] != null && targets[i] == true) {
        // System.out.println("Road at target:"+i+" isnt null, getting Outboundlanes");
        lanes = srt_rarr[i].getOutboundLanes(this);
        num_lanes = lanes.length;
        // System.out.println("Num lanes :"+num_lanes);
        for (int j = 0; j < num_lanes; j++) {
          Drivelane l = lanes[j];
          // System.out.println("Lane"+j+" being checked now. Has type:"+l.getType());
          if (l.mayUse(ruType)) {
            v.addElement(l);
            cnt_lanes++;
          }
        }
      }
    }
    return (Drivelane[]) v.toArray(new Drivelane[cnt_lanes]);
  }
Exemple #3
0
	/**
	* Calculates how every traffic light should be switched
	* Per node, per sign the waiting roadusers are passed and per each roaduser the gain is calculated.
	* @param The TLDecision is a tuple consisting of a traffic light and a reward (Q) value, for it to be green
	* @see gld.algo.tlc.TLDecision
	*/	
	public TLDecision[][] decideTLs()
	{
	    int num_dec, currenttlID, waitingsize, pos, destID;
	    float gain =0, passenger_factor;
	    Sign currenttl;
	    Drivelane currentlane;
	    ListIterator queue;
	    Roaduser ru;
	    
		//Determine wheter it should be random or not
		boolean randomrun = false;
		if (random_number.nextFloat() < random_chance) randomrun = true;
		
	    for (int i=0;i<num_nodes;i++) {
	    	num_dec = tld[i].length;
	    	for(int j=0;j<num_dec;j++) {
	    		currenttl = tld[i][j].getTL();
	    		currenttlID = currenttl.getId();
	    		currentlane = currenttl.getLane();
	    		
	    		waitingsize = currentlane.getNumRoadusersWaiting();
	    		queue = currentlane.getCompleteQueue().listIterator();
	    		gain = 0;
	    		
	    		for(; waitingsize>0; waitingsize--) {
	    			ru = (Roaduser) queue.next();
	    			pos = ru.getPosition();
	    			destID = ru.getDestNode().getId();
	    			passenger_factor = ru.getNumPassengers();
			    			
	    			gain += passenger_factor * (q_table[currenttlID][pos][destID][red_index] - q_table[currenttlID][pos][destID][green_index]);  //red - green
	    		}
	    		
				if(trackNode!=-1 && i==trackNode) {
					Drivelane currentlane2 = tld[i][j].getTL().getLane();
					boolean[] targets = currentlane2.getTargets();
					System.out.println("node: "+i+" light: "+j+" gain: "+gain+" "+targets[0]+" "+targets[1]+" "+targets[2]+" "+currentlane2.getNumRoadusersWaiting());
				}
				
                if(randomrun)
                	gain = random_number.nextFloat();
                	
				tld[i][j].setGain(gain);
			}
		}
		return tld;
	}
Exemple #4
0
  public Drivelane[] getLanesLeadingTo(Drivelane lane, int ruType) throws InfraException {
    Road road = lane.getRoad();
    // Road[] which will contain the Roads of this Node in a sorted fashion:
    // [0] == the drivelanes on this Road will have to turn left to get to 'road', ..
    Road[] srt_rarr = new Road[3];

    if (allRoads[0] == road) {
      srt_rarr[0] = allRoads[3]; // Must turn left
      srt_rarr[1] = allRoads[2]; // Must go straight on
      srt_rarr[2] = allRoads[1]; // Must turn right
    } else if (allRoads[1] == road) {
      srt_rarr[0] = allRoads[0];
      srt_rarr[1] = allRoads[3];
      srt_rarr[2] = allRoads[2];
    } else if (allRoads[2] == road) {
      srt_rarr[0] = allRoads[1];
      srt_rarr[1] = allRoads[0];
      srt_rarr[2] = allRoads[3];
    } else {
      srt_rarr[0] = allRoads[2];
      srt_rarr[1] = allRoads[1];
      srt_rarr[2] = allRoads[0];
    }

    Vector v = new Vector();
    Drivelane[] lanes;
    int num_lanes;
    int cnt_lanes = 0;
    boolean[] targets;

    for (int i = 0; i < 3; i++) {
      if (srt_rarr[i] != null) {
        lanes = srt_rarr[i].getInboundLanes(this);
        num_lanes = lanes.length;
        for (int j = 0; j < num_lanes; j++) {
          Drivelane l = lanes[j];
          targets = l.getTargets();
          if (targets[i] == true && l.mayUse(ruType)) {
            v.addElement(l);
            cnt_lanes++;
          }
        }
      }
    }

    return (Drivelane[]) v.toArray(new Drivelane[cnt_lanes]);
  }