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sumo-emissions/sumo_project/model.py

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"""
Created on 17 oct. 2018
@author: Axel Huynh-Phuc, Thibaud Gasser
"""
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"""
This module defines the business model of our application
"""
import collections
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from traci._trafficlight import Logic as SUMO_Logic
from typing import Tuple, Set
from shapely.geometry import Point, LineString
from shapely.geometry import Polygon
from shapely.geometry.base import BaseGeometry
class Lane:
"""
The Lane class includes the polygon defining the lane
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and keep in memory the initial maximum speed of the lane
"""
def __init__(self, lane_id: str, polygon: LineString, initial_max_speed: float):
"""
Lane constructor
:param lane_id: The ID of the lane
:param polygon: The polygon defining the shape of the lane
:param initial_max_speed: The initial maximum speed
"""
self.polygon = polygon
self.lane_id = lane_id
self.initial_max_speed = initial_max_speed
def __hash__(self):
"""Overrides the default implementation"""
return hash(self.lane_id)
class Phase:
"""
The Phase class defines a phase of a traffic light
"""
def __init__(self, duration: float, minDuration: float, maxDuration: float, phaseDef: str):
"""
Phase constructor
:param duration: The duration of the phase (in seconds)
:param minDuration: The minimum duration of the phase
:param maxDuration: The maximum duration of the phase
:param phaseDef: The definition of the phase, following the definition rules of SUMO
(See : http://sumo.dlr.de/wiki/Simulation/Traffic_Lights#.3Cphase.3E_Attributes)
"""
self.duration = duration
self.minDuration = minDuration
self.maxDuration = maxDuration
self.phaseDef = phaseDef
def __repr__(self) -> str:
"""
:return: The Phase string representation
"""
repr = f'Phase(duration:{self.duration},minDuration:{self.minDuration},maxDuration:{self.maxDuration},phaseDef:{self.phaseDef})'
return str(repr)
class Logic:
"""
The Logic class defines the strategy of a traffic light.
This class includes the Logic instance of SUMO with all phases corresponding to it.
A Logic object contains multiple phases.
"""
def __init__(self, logic: SUMO_Logic, phases: Set[Phase]):
"""
Logic constructor
:param logic: The SUMO Logic object
:param phases: The list of phases belonging to this logic
"""
self._logic = logic
self._phases: Set[Phase] = phases
class TrafficLight:
"""
This TrafficLight class defines a traffic light
"""
def __init__(self, tl_id: str, logics: Set[Logic]):
"""
TrafficLight constructor
:param tl_id: The traffic light ID
:param logics: The list of logics belonging to the traffic light
"""
self.tl_id = tl_id
self._logics: Set[Logic] = logics
def __hash__(self):
"""Overrides the default implementation"""
return hash(self.tl_id)
class Emission:
"""
This class defines the different pollutant emissions
"""
def __init__(self, co2=0, co=0, nox=0, hc=0, pmx=0):
"""
Emission constructor
:param co2: Quantity of CO2(in mg)
:param co: Quantity of C0(in mg)
:param nox: Quantity of Nox(in mg)
:param hc: Quantity of HC(in mg)
:param pmx: Quantity of PMx(in mg)
"""
self.co2 = co2
self.co = co
self.nox = nox
self.hc = hc
self.pmx = pmx
def __add__(self, other):
"""
Add two emission objects
:param other: The other Emission object to add
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:return: A new object whose emission values are the sum of both Emission object
"""
return Emission(self.co2 + other.co2, self.co + other.co, self.nox + other.nox, self.hc + other.hc,
self.pmx + other.pmx)
def value(self):
"""
:return: The sum of all emissions
"""
return self.co2 + self.co + self.nox + self.hc + self.pmx
def __repr__(self) -> str:
"""
:return: The Emission string representation
"""
repr = f'Emission(co2={self.co2},co={self.co},nox={self.nox},hc={self.hc},pmx={self.pmx})'
return str(repr)
class Area:
"""
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The Area class defines a grid area of the simulation map
"""
def __init__(self, coords, name):
"""
Area constructor
:param coords: The coordinates of the zone,
defined by the bounds coordinates of this area : (xmin, ymin, xmax, ymax)
:param name: The Area name
"""
self.limited_speed = False
self.locked = False
self.tls_adjusted = False
self.weight_adjusted = False
self.rectangle = Polygon(coords)
self.name = name
self.emissions_by_step = []
self._lanes: Set[Lane] = set()
self._tls: Set[TrafficLight] = set()
def set_window_size(self, window_size):
self.window = collections.deque(maxlen=window_size)
def __eq__(self, other):
"""
Overrides the equal definition
:param other: The other Area object
:return: True if the two rectangles are equals
"""
return self.rectangle.__eq__(other)
def __contains__(self, item):
"""
:param item: A position on the map
:return: True if the area contains the item
"""
return self.rectangle.contains(item)
@property
def bounds(self):
"""
Return the bounds rectangle of this area
:return:
"""
return self.rectangle.bounds
def intersects(self, other: BaseGeometry) -> bool:
"""
:param other: A BaseGeometry object
:return: True if this area intersects with other
"""
return self.rectangle.intersects(other)
def add_lane(self, lane: Lane):
"""
Add a new lane object into lanes list
:param lane: A Lane object
:return:
"""
self._lanes.add(lane)
def add_tl(self, tl: TrafficLight):
"""
Add a new trafficLight object into lanes list
:param tl: A TrafficLight object
:return:
"""
self._tls.add(tl)
def remove_lane(self, lane: Lane):
"""
Remove a lane from lanes list
:param lane: The Lane object to remove
:return:
"""
self._lanes.remove(lane)
def sum_all_emissions(self):
"""
Sum all Emissions object from initial step to final step
:return: The sum Emission object
"""
sum = Emission()
for emission in self.emissions_by_step:
sum += emission
return sum
def sum_emissions_into_window(self, current_step):
"""
Sum all Emissions object into the acquisition window
:param current_step: The current step of the simulation
:return:
"""
self.window.appendleft(self.emissions_by_step[current_step].value())
sum = 0
for i in range(self.window.__len__()):
sum += self.window[i]
return sum
@classmethod
def from_bounds(cls, xmin, ymin, xmax, ymax):
return cls((
(xmin, ymin),
(xmin, ymax),
(xmax, ymax),
(xmax, ymin)))
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def infrastructure_changed(self):
return (self.limited_speed or self.locked or self.tls_adjusted or self.weight_adjusted)
class Vehicle:
"""
The Vehicle class defines a vehicle object
"""
def __init__(self, veh_id: int, pos: Tuple[float, float]):
"""
Vehicle constructor
:param veh_id: The vehicle ID
:param pos: The position of the vehicle one the map
"""
self.emissions: Emission = Emission()
self.veh_id = veh_id
self.pos = Point(pos)
def __repr__(self) -> str:
"""
:return: The Vehicle string representation
"""
return str(self.__dict__)