Exemple #1
0
void Current_RealisationModule::run()
{
    DM::System * sys = this->getData("City");
    DM::Component * cmp = new DM::Component();
    sys->addComponent(cmp,Simu);

    cmp->addAttribute("MusicFileNo",atoi(this->RealisationNr.c_str()));
}
void ImportRasterData2::run()
{
	DM::System * sys = this->getData("Data");
	DM::View data(dataname, DM::RASTERDATA, DM::WRITE);
	DM::RasterData * r = this->getRasterData("Data", data);
	QFile file(QString::fromStdString(FileName));



	DM::Component * cmp = new DM::Component();
	sys->addComponent(cmp,Coords);

	QTextStream stream(&file);
	if (!file.open(QIODevice::ReadOnly | QIODevice::Text)) {
		DM::Logger(DM::Error) << "warning, read input file ";
		return;
	}

	QString line("NULL");

	int LineCounter  = 0;
	int rowCounter = 0;
	int ncols = 0;
	int nrows = 0;
	double xoffset = 0;
	double yoffset = 0;
	double cellsize = 0;
	double NoDataValue = -9999; //default

	//Read Header
	while (!line.isNull() && LineCounter < 6 ) {
		LineCounter++;
		line =stream.readLine();
		if (LineCounter == 1) {
			QStringList list = line.split(QRegExp("\\s+"));
			QString s = QString(list[1]);
			s.replace(",", ".");
			ncols = s.toInt();
		}
		if (LineCounter == 2) {
			QStringList list = line.split(QRegExp("\\s+"));
			QString s = QString(list[1]);
			s.replace(",", ".");
			nrows = s.toInt();
		}
		if (LineCounter == 3) {
			QStringList list = line.split(QRegExp("\\s+"));
			QString s = QString(list[1]);
			s.replace(",", ".");
			xoffset = s.toDouble();
			cmp->addAttribute("Xoffset",xoffset);
		}
		if (LineCounter == 4) {
			QStringList list = line.split(QRegExp("\\s+"));
			QString s = QString(list[1]);
			s.replace(",", ".");
			yoffset = s.toDouble();
			cmp->addAttribute("Yoffset",yoffset);
		}
		if (LineCounter == 5) {
			QStringList list = line.split(QRegExp("\\s+"));
			QString s = QString(list[1]);
			s.replace(",", ".");
			cellsize = s.toDouble() * multiplier;
		}
		if (LineCounter == 6) {
			QStringList list = line.split(QRegExp("\\s+"));
			QString s = QString(list[1]);
			s.replace(",", ".");
			NoDataValue = s.toDouble();
		}
	}
	std::cout <<" Cols " << ncols << std::endl;
	std::cout <<" Rows " << nrows << std::endl;
	std::cout <<" Cellsize " << cellsize << std::endl;
	r->setNoValue(NoDataValue);

	r->setSize(ncols, nrows, cellsize,cellsize,xoffset,yoffset);

	while (!line.isNull()) {
		LineCounter++;
		line =stream.readLine();
		if (LineCounter >= 6 && rowCounter < nrows) {
			QStringList list = line.split(QRegExp("\\s+"));
			for ( int i = 0; i < list.size(); i++ ) {
				QString s = QString(list[i]);
				s.replace(",", ".");
				if (flip)
					r->setCell(i, nrows-rowCounter-1, s.toDouble());
				else
					r->setCell(i, rowCounter, s.toDouble());
			}
			rowCounter++;

		}
	}
	file.close();
}
Exemple #3
0
void ModernBuilding::run()
{
	std::vector<double> roofColor;
	roofColor.push_back(0.66);
	roofColor.push_back(0.66);
	roofColor.push_back(0.66);
	std::vector<double> wallColor;
	wallColor.push_back(196./255.);
	wallColor.push_back(196./255.);
	wallColor.push_back(196./255.);
	std::vector<double> windowColor;
	windowColor.push_back(0.53);
	windowColor.push_back(0.81);
	windowColor.push_back(1);

	//Get simulation datastream
	DM::System * city = this->getData("city");

	//Create building container
	DM::Component * building = city->addComponent(new Component(), buildings);

	//Set building parameters
	building->addAttribute("type", 1001);
	building->addAttribute("built_year", buildyear);
	building->addAttribute("stories", stories);
	building->addAttribute("stories_below", 0); //cellar counts as story
	building->addAttribute("stories_height",3 );

	building->addAttribute("floor_area", l*b);
	building->addAttribute("gross_floor_area", l * b * stories);
	building->addAttribute("V_living", l*b*stories * 3);

	building->addAttribute("l_bounding", l);
	building->addAttribute("b_bounding", b);
	building->addAttribute("h_bounding", stories * 3);

	building->addAttribute("alpha_bounding", 0);

	building->addAttribute("alpha_roof", 0);

	building->addAttribute("cellar_used", 1);
	building->addAttribute("roof_used", 0);

	building->addAttribute("T_heating", heatingT);
	building->addAttribute("T_cooling", 26);


	//Building Footprint. Orientation matters. Check if the normal vector of the face is in your direction
	std::vector<DM::Node * > nodes_footprint;

	DM::Node * n1  = city->addNode(-l/2.,  -b/2., 0.);
	DM::Node * n2  = city->addNode( l/2.,  -b/2., 0.);
	DM::Node * n3  = city->addNode( l/2.,   b/2., 0.);
	DM::Node * n4  = city->addNode(-l/2.,   b/2., 0.);

	nodes_footprint.push_back(n1);
	nodes_footprint.push_back(n2);
	nodes_footprint.push_back(n3);
	nodes_footprint.push_back(n4);
	nodes_footprint.push_back(n1); //To a closed polygon last is first

	//Overhang
	DM::Node n1_c (-l/2. - overhang,  -b/2. - overhang, 0.);
	DM::Node n2_c ( l/2. + overhang,  -b/2. - overhang, 0.);
	DM::Node n3_c ( l/2. + overhang,   b/2. + overhang, 0.);
	DM::Node n4_c (-l/2. - overhang,   b/2. + overhang, 0.);

	std::vector<DM::Node> overhang_nodes;
	overhang_nodes.push_back(n1_c);
	overhang_nodes.push_back(n2_c);
	overhang_nodes.push_back(n3_c);
	overhang_nodes.push_back(n4_c);


	//Add Footprint
	DM::Face * footprint = city->addFace(nodes_footprint, footprints);

	Node  n = DM::CGALGeometry::CalculateCentroid(city, footprint);
	building->addAttribute("centroid_x", n.getX());
	building->addAttribute("centroid_y", n.getY());

	//Set footprint as floor
	DM::Face * base_plate = city->addFace(nodes_footprint, geometry);
	building->getAttribute("Geometry")->addLink(base_plate, "Geometry");

	//Define baseplate as cellar
	base_plate->addAttribute("type", "ceiling_cellar");

	//Extrude Footprint

	for (int story = 0; story < stories; story++) {
		std::vector<DM::Face*> extruded_faces = TBVectorData::ExtrudeFace(city, geometry, nodes_footprint, 3);
		//last face in vector is ceiling
		int unsigned lastID = extruded_faces.size()-1;
		for (unsigned int i = 0; i < extruded_faces.size(); i++) {
			DM::Face * f = extruded_faces[i];
			//if wall
			if (i != lastID) {
				//Add type
				f->addAttribute("type", "wall_outside");
				//Add color
				f->getAttribute("color")->setDoubleVector(wallColor);
				//Create Windows every 5m with = 1.5m height = 1.0m
				std::vector<DM::Face* > windows = LittleGeometryHelpers::CreateHolesInAWall(city, f, w_distance, w_width, w_height, parapet);
				foreach (DM::Face * w, windows) {
					city->addComponentToView(w, this->geometry);
					w->addAttribute("type", "window");
					w->getAttribute("color")->setDoubleVector(windowColor);
					building->getAttribute("Geometry")->addLink(w, "Geometry");
				}
			}
			//if ceiling
			else if (story != stories -1){
Exemple #4
0
void PlaceJobs::run() {
	DM::System * city = this->getData("City");

	std::vector<Component*> personCmps = city->getAllComponentsInView(persons);
	std::vector<int> person_rand_int_id;
	for (unsigned int i = 0; i < personCmps.size(); i++) {
		person_rand_int_id.push_back(i);
	}
	for (unsigned int i = 0; i < personCmps.size(); i++) {
		int index1 =  rand() % person_rand_int_id.size();
		int index2 =  rand() % person_rand_int_id.size();
		int p_id_tmp = person_rand_int_id[index1];
		person_rand_int_id[index1] = person_rand_int_id[index2];
		person_rand_int_id[index2] = p_id_tmp;

	}



	std::vector<Component*> gridCmps = city->getAllComponentsInView(grids);


	int job_id = 0;
	foreach(DM::Component * grid, gridCmps) 
	{
		double jobsN = grid->getAttribute("jobs")->getDouble();

		if (jobsN < 0.01)
			continue;

		//Calcualte Total Area
		Attribute  * attrBuildings = grid->getAttribute("BUILDING");
		double building_footprints_tot = 0;

		std::vector<Component*> linkedBuildings = attrBuildings->getLinkedComponents();
		foreach(DM::Component* b, linkedBuildings)
			building_footprints_tot += b->getAttribute("area")->getDouble();

		if (building_footprints_tot < 0.01)
			continue;

		//Create Jobs
		double JobperSqft = jobsN/building_footprints_tot;

		foreach(DM::Component* b, linkedBuildings)
		{
			double area = b->getAttribute("area")->getDouble();

			int jobsInBuilding = (int) (area*JobperSqft + 0.5);
			for (int i = 0; i < jobsInBuilding; i++) 
			{
				job_id++;
				DM::Component * job = new DM::Component();

				//Person ID
				DM::Component * person = personCmps[person_rand_int_id[job_id]];
				person->addAttribute("job_id", job_id);

				DM::Component * households = person->getAttribute("HOUSEHOLD")->getLinkedComponents()[0];
				households->addAttribute("workers", households->getAttribute("workers")->getDouble()+1);
				job->addAttribute("id", job_id);
				job->addAttribute("home_based_status", 0);
				job->addAttribute("sector_id", 1);
				job->addAttribute("building_type", 1);

				Attribute lAttr("BUILDING", Attribute::LINK);
				lAttr.addLink(b, "BUILDING");
				job->addAttribute(lAttr);
				city->addComponent(job, jobs);
				Attribute * lBAttr = b->getAttribute("JOB");
				lBAttr->addLink(job, "JOB");

			}
			b->addAttribute("non_residential_sqft", 20*jobsInBuilding*1.1);
		}