2023-04-29 11:00:42 +02:00
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#!/bin/python
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"""
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server.py - Part of ants project
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This file sets up the mesa built-in visualization server
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and runs it on file execution. (python server.py or on UNIX: ./server.py)
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2023-04-29 11:00:42 +02:00
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For now it displays ant locations as well as pheromone A
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concentrations on two seperate grids
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License: AGPL 3 (see end of file)
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2023-05-17 15:57:23 +02:00
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(C) Alexander Bocken, Viviane Fahrni, Grace Kagho
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2023-04-29 11:00:42 +02:00
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"""
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import numpy as np
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from mesa.visualization.modules import CanvasHexGrid, ChartModule, CanvasGrid, TextElement
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from mesa.visualization.ModularVisualization import ModularServer
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from mesa.visualization.UserParam import UserSettableParameter
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from model import ActiveWalkerModel
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from collections import defaultdict
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def setup(params=None):
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# Set the model parameters
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if params is None:
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params = {
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"width": 50, "height": 50,
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"num_max_agents" : 100,
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"nest_position" : (25,25),
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"num_initial_roamers" : 5,
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}
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class CanvasHexGridMultiAgents(CanvasHexGrid):
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"""
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A modification of CanvasHexGrid to not run visualization functions on all agents
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but on all grid positions instead
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"""
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package_includes = ["HexDraw.js", "CanvasHexModule.js", "InteractionHandler.js"]
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portrayal_method = None # Portrayal function
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canvas_width = 500
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canvas_height = 500
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2023-05-11 17:57:39 +02:00
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def __init__(self, portrayal_method, grid_width, grid_height, canvas_width=500, canvas_height=500, norm_method=None):
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super().__init__(portrayal_method, grid_width, grid_height, canvas_width, canvas_height)
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self.norm_method = norm_method
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def render(self, model):
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grid_state = defaultdict(list)
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norm = self.norm_method(model)
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for x in range(model.grid.width):
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for y in range(model.grid.height):
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portrayal = self.portrayal_method(model, (x, y), norm)
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if portrayal:
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portrayal["x"] = x
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portrayal["y"] = y
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grid_state[portrayal["Layer"]].append(portrayal)
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return grid_state
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def get_color(level, normalization):
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"""
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level: level to calculate color between white and black (linearly)
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normalization: value for which we want full black color
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"""
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return max(int(255 - level * 255 / normalization), 0)
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def portray_ant_density(model, pos, norm):
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if model.grid.is_nest(pos):
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col = "red"
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elif model.grid.is_food(pos):
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col = "green"
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else:
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col = get_color(level=len(model.grid[pos]), normalization=norm)
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col = f"rgb({col}, {col}, {col})"
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return {
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"Shape": "hex",
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"r": 1,
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"Filled": "true",
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"Layer": 0,
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"x": pos[0],
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"y": pos[1],
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"Color": col,
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}
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def get_max_grid_val(model, key):
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return np.max(model.grid.fields[key])
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def portray_pheromone_density(model, pos, norm):
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col_a = get_color(level=model.grid.fields["A"][pos], normalization=norm)
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col_b = get_color(level=model.grid.fields["B"][pos], normalization=norm)
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return {
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"Shape": "hex",
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"r": 1,
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"Filled": "true",
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"Layer": 0,
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"x": pos[0],
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"y": pos[1],
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"Color": f"rgb({col_a}, {col_b}, 255)"
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}
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width = params['width']
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height = params['height']
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pixel_ratio = 10
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grid_ants = CanvasHexGridMultiAgents(portray_ant_density,
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width, height, width*pixel_ratio, height*pixel_ratio,
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norm_method=lambda m: 5)
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def norm_ants(model):
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return 5
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def norm_pheromones(model):
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max_a = np.max(model.grid.fields["A"])
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max_b = np.max(model.grid.fields["B"])
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return np.ceil(np.max([max_a, max_b, 20]) + 1e-4).astype(int)
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grid_pheromones = CanvasHexGridMultiAgents(portray_pheromone_density,
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width, height, width*pixel_ratio, height*pixel_ratio,
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norm_method=norm_pheromones
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)
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test_text = TextElement()
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return ModularServer(ActiveWalkerModel,
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[lambda m: "<h3>Ant density</h3><h5>Nest: Red, Food: Green</h5>",
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grid_ants,
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lambda m: f"<h5>Normalization Value: {norm_ants(m)}</h5>",
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lambda m: "<h3>Pheromone Density</h3><h5>Pheromone A: Cyan, Pheromone B: Magenta</h5>",
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grid_pheromones,
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lambda m: f"<h5>Normalization Value: {norm_pheromones(m)}</h5>"
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],
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"Active Random Walker Ants", params)
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if __name__ == "__main__":
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server = setup()
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server.launch()
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"""
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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.
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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.
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You should have received a copy of the GNU Affero General Public License along with this program. If not, see <https://www.gnu.org/licenses/>
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"""
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