""" model.py - Part of ants project This file implements the mesa model on which our ActiveRandomWalkerAnts will act License: AGPL 3 (see end of file) (C) Alexander Bocken, Viviane Fahrni, Grace Kragho """ import numpy as np from mesa.model import Model from mesa.space import Coordinate, HexGrid, Iterable from multihex import MultiHexGrid, MultiHexGridScalarFields from mesa.time import SimultaneousActivation from mesa.datacollection import DataCollector from agent import RandomWalkerAnt from agent import Pheromone class ActiveWalkerModel(Model): # TODO: separate food and source into new agents? # TODO: pheromone concentrations as well as agents? def __init__(self, width : int, height : int , num_max_agents : int, num_initial_roamers : int, nest_position : Coordinate, max_steps:int=1000) -> None: super().__init__() fields={"A" : True, # key : also have _next prop (for no interference in step) "B": True, "nests": False, "food" : False, } self.schedule = SimultaneousActivation(self) self.grid = MultiHexGridScalarFields(width=width, height=height, torus=True, fields=fields) self._unique_id_counter = -1 self.max_steps = max_steps self.nest_position : Coordinate = nest_position self.num_max_agents = num_max_agents self.decay_rates = {"A" :1, "B": 1, } for agent_id in self.get_unique_ids(num_initial_roamers): agent = RandomWalkerAnt(unique_id=agent_id, model=self, do_follow_chemical_A=True) self.schedule.add(agent) self.grid.place_agent(agent, pos=nest_position) self.datacollector = DataCollector( model_reporters={}, agent_reporters={} ) self.datacollector.collect(self) # keep at end of __init___ def step(self): self.schedule.step() # step() and advance() all agents # apply decay rate on pheromone levels for key in ("A", "B"): field = self.grid.fields[key] self.grid.fields[key] = field - self.decay_rates[key]*field self.grid.step() # actually apply deposits on fields self.datacollector.collect(self) if self.schedule.steps >= self.max_steps: self.running = False def get_unique_id(self) -> int: self._unique_id_counter += 1 return self._unique_id_counter def get_unique_ids(self, num_ids : int): for _ in range(num_ids): yield self.get_unique_id() """ This program is free software: you can redistribute it and/or modify it under the terms of the GNU Affero General Public License as published by the Free Software Foundation, version 3. This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU Affero General Public License for more details. You should have received a copy of the GNU Affero General Public License along with this program. If not, see """