def NodesOut_init(model, node, route_no): out = [] if node == 'source': start_node = write_data.roadSeg_to_node(model.Routes[route_no][0], model.nLayers.value) for i in range(model.nLayers.value): out.append(start_node + i) elif node == 'destination': return out else: roadSeg = write_data.node_to_roadSeg(node, model.nLayers.value) if roadSeg not in model.Routes[route_no]: return out soc = write_data.node_to_soc(node, model.nLayers.value) if soc < 1.0e-10 and roadSeg != model.Routes[route_no][0]: out.append('destination') return out if roadSeg == model.Routes[route_no][-1]: out.append('destination') elif roadSeg == model.Routes[route_no][0]: next_roadSeg = model.Routes[route_no][1] next_start_node = write_data.roadSeg_to_node( next_roadSeg, model.nLayers.value) if node == write_data.roadSeg_to_node(roadSeg, model.nLayers.value): out.append(next_start_node) out.append(next_start_node + 1) else: roadSeg_indx = model.Routes[route_no].index(roadSeg) next_roadSeg = model.Routes[route_no][roadSeg_indx + 1] next_start_node = write_data.roadSeg_to_node( next_roadSeg, model.nLayers.value) current_soc = write_data.node_to_soc(node, model.nLayers.value) if current_soc > 1.0e-10: #INSTALL = True INSTALL = True next_soc = write_data.nextSOC(current_soc, INSTALL, model.nLayers.value) next_node_posn = write_data.position_in_layer( next_soc, model.nLayers.value) next_node = next_start_node + next_node_posn out.append(next_node) #INSTALL = False INSTALL = False next_soc = write_data.nextSOC(current_soc, INSTALL, model.nLayers.value) next_node_posn = write_data.position_in_layer( next_soc, model.nLayers.value) next_node = next_start_node + next_node_posn if next_node != out[-1]: out.append(next_node) return out
def boundary_nodes_init(model, route_no): out = [] for roadSeg in model.Routes[route_no][1:-1]: start_node = write_data.roadSeg_to_node(roadSeg, model.nLayers.value) out.append(start_node + model.nLayers.value - 1) roadSeg = model.Routes[route_no][-1] start_node = start_node = write_data.roadSeg_to_node( roadSeg, model.nLayers.value) for i in range(model.nLayers.value): out.append(start_node + i) return out
def NodesIn_init(model, node, route_no): out = [] if node == 'source': return out elif node == 'destination': start_node = write_data.roadSeg_to_node(model.Routes[route_no][-1], model.nLayers.value) for i in range(model.nLayers.value): out.append(start_node + i) for roadSeg in model.Routes[route_no][1:-1]: start_node = write_data.roadSeg_to_node(roadSeg, model.nLayers.value) out.append(start_node + model.nLayers.value - 1) else: roadSeg = write_data.node_to_roadSeg(node, model.nLayers.value) if roadSeg not in model.Routes[route_no]: return out if roadSeg == model.Routes[route_no][0]: out.append('source') else: roadSeg_indx = model.Routes[route_no].index(roadSeg) prev_roadSeg = model.Routes[route_no][roadSeg_indx - 1] prev_start_node = write_data.roadSeg_to_node( prev_roadSeg, model.nLayers.value) current_soc = write_data.node_to_soc(node, model.nLayers.value) prev_soc = write_data.prevSOC(current_soc, model.nLayers.value) posn = [ write_data.position_in_layer(soc, model.nLayers.value) for soc in prev_soc ] if roadSeg == model.Routes[route_no][1]: if 0 in posn: out.append(prev_start_node) else: out = [prev_start_node + i for i in posn] return out
def NodesOut_init(model, node, route_no): out = [] if route_no not in model.nodes_in_dic: #print 'cccc' model.nodes_in_dic[route_no] = {} model.nodes_in_dic[route_no][node] = [] elif node not in model.nodes_in_dic[route_no]: #print 'route_no: ', route_no, model.nodes_in_dic[route_no] #print 'dddd', node model.nodes_in_dic[route_no][node] = [] #print model.nodes_in_dic[route_no] if node == 'source': start_node = write_data.roadSeg_to_node(model.Routes[route_no][0], model.nLayers.value) for i in range(model.nLayers.value): out.append(start_node + i) if start_node + i not in model.nodes_in_dic[route_no]: model.nodes_in_dic[route_no][start_node + i] = [node] else: model.nodes_in_dic[route_no][start_node + i].append(node) elif node == 'destination': return out else: roadSeg = write_data.node_to_roadSeg(node, model.nLayers.value) if roadSeg not in model.Routes[route_no]: return out standard_soc = write_data.node_to_soc(node, model.nLayers.value) if standard_soc < 1.0e-10 and roadSeg != model.Routes[route_no][0]: out.append('destination') if 'destination' not in model.nodes_in_dic[route_no]: model.nodes_in_dic[route_no]['destination'] = [node] else: model.nodes_in_dic[route_no]['destination'].append(node) return out if roadSeg == model.Routes[route_no][-1]: out.append('destination') if 'destination' not in model.nodes_in_dic[route_no]: model.nodes_in_dic[route_no]['destination'] = [node] else: model.nodes_in_dic[route_no]['destination'].append(node) elif roadSeg == model.Routes[route_no][0]: next_roadSeg = model.Routes[route_no][1] next_start_node = write_data.roadSeg_to_node( next_roadSeg, model.nLayers.value) if node == write_data.roadSeg_to_node(roadSeg, model.nLayers.value): current_standard_soc = write_data.node_to_soc( node, model.nLayers.value) current_range_soc = standard_soc_to_range_soc( model, current_standard_soc) velocity = model.graph.node[str(roadSeg - 2)]['speed_urban'] * 0.01 distance = model.graph.node[str(roadSeg - 2)]['length'] * 0.00621371 INSTALL = True next_range_soc = write_data.nextSOC_real_data( current_range_soc, distance, 1, velocity, INSTALL) next_standard_soc = range_soc_to_standard_soc( model, next_range_soc) next_node_posn = write_data.position_in_layer( next_standard_soc, model.nLayers.value) next_node = next_start_node + next_node_posn out.append(next_node) if next_node not in model.nodes_in_dic[route_no]: model.nodes_in_dic[route_no][next_node] = [node] else: model.nodes_in_dic[route_no][next_node].append(node) INSTALL = False next_range_soc = write_data.nextSOC_real_data( current_range_soc, distance, 1, velocity, INSTALL) next_standard_soc = range_soc_to_standard_soc( model, next_range_soc) next_node_posn = write_data.position_in_layer( next_standard_soc, model.nLayers.value) next_node = next_start_node + next_node_posn out.append(next_node) #out.append(next_start_node) #out.append(next_start_node + 1) if next_node not in model.nodes_in_dic[route_no]: model.nodes_in_dic[route_no][next_node] = [node] else: model.nodes_in_dic[route_no][next_node].append(node) #print out ''' elif roadSeg == model.Routes[route_no][-2]: next_roadSeg = model.Routes[route_no][-1] next_start_node = write_data.roadSeg_to_node(next_roadSeg, model.nLayers.value) current_standard_soc = write_data.node_to_soc(node, model.nLayers.value) node_posn = write_data.position_in_layer(current_standard_soc, model.nLayers.value) out.append(next_start_node + node_posn) if next_start_node + node_posn not in model.nodes_in_dic[route_no]: model.nodes_in_dic[route_no][next_start_node + node_posn] = [node] else: model.nodes_in_dic[route_no][next_start_node + node_posn].append(node) ''' else: roadSeg_indx = model.Routes[route_no].index(roadSeg) next_roadSeg = model.Routes[route_no][roadSeg_indx + 1] next_start_node = write_data.roadSeg_to_node( next_roadSeg, model.nLayers.value) current_standard_soc = write_data.node_to_soc( node, model.nLayers.value) if current_standard_soc > 1.0e-10: #INSTALL = True INSTALL = True velocity = model.graph.node[str(roadSeg - 2)]['speed_urban'] * 0.01 distance = model.graph.node[str(roadSeg - 2)]['length'] * 0.00621371 current_range_soc = standard_soc_to_range_soc( model, current_standard_soc) next_range_soc = write_data.nextSOC_real_data( current_range_soc, distance, 1, velocity, INSTALL) next_standard_soc = range_soc_to_standard_soc( model, next_range_soc) next_node_posn = write_data.position_in_layer( next_standard_soc, model.nLayers.value) next_node = next_start_node + next_node_posn #print next_soc if node == 506112: print "\n \t", velocity, distance out.append(next_node) if next_node not in model.nodes_in_dic[route_no]: model.nodes_in_dic[route_no][next_node] = [node] else: model.nodes_in_dic[route_no][next_node].append(node) #INSTALL = False INSTALL = False velocity = model.graph.node[str(roadSeg - 2)]['speed_urban'] * 0.01 distance = model.graph.node[str(roadSeg - 2)]['length'] * 0.00621371 current_range_soc = standard_soc_to_range_soc( model, current_standard_soc) next_range_soc = write_data.nextSOC_real_data( current_range_soc, distance, 1, velocity, INSTALL) next_standard_soc = range_soc_to_standard_soc( model, next_range_soc) next_node_posn = write_data.position_in_layer( next_standard_soc, model.nLayers.value) next_node = next_start_node + next_node_posn #print next_soc if next_node != out[-1]: out.append(next_node) if next_node not in model.nodes_in_dic[route_no]: model.nodes_in_dic[route_no][next_node] = [node] else: model.nodes_in_dic[route_no][next_node].append(node) #model.nodes_in_dic[route_no][next_node].append(node) #print out return out