#!/bin/python """ server.py - Part of ants project This file sets up the mesa built-in visualization server and runs it on file execution. (python server.py or on UNIX: ./server.py) For now it displays ant locations as well as pheromone A concentrations on two seperate grids License: AGPL 3 (see end of file) (C) Alexander Bocken, Viviane Fahrni, Grace Kragho """ import numpy as np from mesa.visualization.modules import CanvasHexGrid, ChartModule, CanvasGrid, TextElement from mesa.visualization.ModularVisualization import ModularServer from mesa.visualization.UserParam import UserSettableParameter from model import ActiveWalkerModel from collections import defaultdict def setup(params=None): # Set the model parameters if params is None: params = { "width": 50, "height": 50, "num_max_agents" : 100, "nest_position" : (25,25), "num_initial_roamers" : 5, } class CanvasHexGridMultiAgents(CanvasHexGrid): """ A modification of CanvasHexGrid to not run visualization functions on all agents but on all grid positions instead """ package_includes = ["HexDraw.js", "CanvasHexModule.js", "InteractionHandler.js"] portrayal_method = None # Portrayal function canvas_width = 500 canvas_height = 500 def __init__(self, portrayal_method, grid_width, grid_height, canvas_width=500, canvas_height=500, norm_method=None): super().__init__(portrayal_method, grid_width, grid_height, canvas_width, canvas_height) self.norm_method = norm_method def render(self, model): grid_state = defaultdict(list) norm = self.norm_method(model) for x in range(model.grid.width): for y in range(model.grid.height): portrayal = self.portrayal_method(model, (x, y), norm) if portrayal: portrayal["x"] = x portrayal["y"] = y grid_state[portrayal["Layer"]].append(portrayal) return grid_state def get_color(level, normalization): """ level: level to calculate color between white and black (linearly) normalization: value for which we want full black color """ return max(int(255 - level * 255 / normalization), 0) def portray_ant_density(model, pos, norm): if model.grid.is_nest(pos): col = "red" elif model.grid.is_food(pos): col = "green" else: col = get_color(level=len(model.grid[pos]), normalization=norm) col = f"rgb({col}, {col}, {col})" return { "Shape": "hex", "r": 1, "Filled": "true", "Layer": 0, "x": pos[0], "y": pos[1], "Color": col, } def get_max_grid_val(model, key): return np.max(model.grid.fields[key]) def portray_pheromone_density(model, pos, norm): col_a = get_color(level=model.grid.fields["A"][pos], normalization=norm) col_b = get_color(level=model.grid.fields["B"][pos], normalization=norm) return { "Shape": "hex", "r": 1, "Filled": "true", "Layer": 0, "x": pos[0], "y": pos[1], "Color": f"rgb({col_a}, {col_b}, 255)" } width = params['width'] height = params['height'] pixel_ratio = 10 grid_ants = CanvasHexGridMultiAgents(portray_ant_density, width, height, width*pixel_ratio, height*pixel_ratio, norm_method=lambda m: 5) def norm_ants(model): return 5 def norm_pheromones(model): max_a = np.max(model.grid.fields["A"]) max_b = np.max(model.grid.fields["B"]) return np.ceil(np.max([max_a, max_b, 20]) + 1e-4).astype(int) grid_pheromones = CanvasHexGridMultiAgents(portray_pheromone_density, width, height, width*pixel_ratio, height*pixel_ratio, norm_method=norm_pheromones ) test_text = TextElement() return ModularServer(ActiveWalkerModel, [lambda m: "

Ant density

Nest: Red, Food: Green
", grid_ants, lambda m: f"
Normalization Value: {norm_ants(m)}
", lambda m: "

Pheromone Density

Pheromone A: Cyan, Pheromone B: Pink
", grid_pheromones, lambda m: f"
Normalization Value: {norm_pheromones(m)}
" ], "Active Random Walker Ants", params) if __name__ == "__main__": server = setup() server.launch() """ 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 """