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379 lines
12 KiB
Python
379 lines
12 KiB
Python
import os
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import sqlite3
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import csv
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import math
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import random
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import yaml
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import tempfile
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import pandas as pd
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from time import time as current_time
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from copy import deepcopy
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from networkx.readwrite import json_graph
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import networkx as nx
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from tsih import History, Record, Key, NoHistory
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from mesa import Model
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from . import serialization, agents, analysis, utils, time
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# These properties will be copied when pickling/unpickling the environment
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_CONFIG_PROPS = [ 'name',
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'states',
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'default_state',
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'interval',
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]
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class Environment(Model):
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"""
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The environment is key in a simulation. It contains the network topology,
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a reference to network and environment agents, as well as the environment
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params, which are used as shared state between agents.
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The environment parameters and the state of every agent can be accessed
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both by using the environment as a dictionary or with the environment's
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:meth:`soil.environment.Environment.get` method.
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"""
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def __init__(self, name=None,
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network_agents=None,
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environment_agents=None,
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states=None,
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default_state=None,
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interval=1,
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network_params=None,
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seed=None,
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topology=None,
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schedule=None,
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initial_time=0,
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environment_params=None,
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history=True,
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dir_path=None,
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**kwargs):
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super().__init__()
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self.schedule = schedule
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if schedule is None:
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self.schedule = time.TimedActivation()
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self.name = name or 'UnnamedEnvironment'
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seed = seed or current_time()
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random.seed(seed)
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if isinstance(states, list):
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states = dict(enumerate(states))
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self.states = deepcopy(states) if states else {}
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self.default_state = deepcopy(default_state) or {}
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if topology is None:
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network_params = network_params or {}
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topology = serialization.load_network(network_params,
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dir_path=dir_path)
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if not topology:
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topology = nx.Graph()
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self.G = nx.Graph(topology)
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self.environment_params = environment_params or {}
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self.environment_params.update(kwargs)
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self._env_agents = {}
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self.interval = interval
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if history:
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history = History
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else:
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history = NoHistory
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self._history = history(name=self.name,
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backup=True)
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self['SEED'] = seed
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if network_agents:
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distro = agents.calculate_distribution(network_agents)
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self.network_agents = agents._convert_agent_types(distro)
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else:
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self.network_agents = []
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environment_agents = environment_agents or []
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if environment_agents:
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distro = agents.calculate_distribution(environment_agents)
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environment_agents = agents._convert_agent_types(distro)
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self.environment_agents = environment_agents
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@property
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def now(self):
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if self.schedule:
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return self.schedule.time
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raise Exception('The environment has not been scheduled, so it has no sense of time')
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@property
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def agents(self):
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yield from self.environment_agents
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yield from self.network_agents
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@property
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def environment_agents(self):
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for ref in self._env_agents.values():
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yield ref
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@environment_agents.setter
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def environment_agents(self, environment_agents):
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self._environment_agents = environment_agents
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self._env_agents = agents._definition_to_dict(definition=environment_agents)
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@property
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def network_agents(self):
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for i in self.G.nodes():
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node = self.G.nodes[i]
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if 'agent' in node:
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yield node['agent']
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@network_agents.setter
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def network_agents(self, network_agents):
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self._network_agents = network_agents
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for ix in self.G.nodes():
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self.init_agent(ix, agent_definitions=network_agents)
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def init_agent(self, agent_id, agent_definitions):
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node = self.G.nodes[agent_id]
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init = False
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state = dict(node)
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agent_type = None
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if 'agent_type' in self.states.get(agent_id, {}):
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agent_type = self.states[agent_id]['agent_type']
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elif 'agent_type' in node:
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agent_type = node['agent_type']
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elif 'agent_type' in self.default_state:
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agent_type = self.default_state['agent_type']
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if agent_type:
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agent_type = agents.deserialize_type(agent_type)
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elif agent_definitions:
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agent_type, state = agents._agent_from_definition(agent_definitions, unique_id=agent_id)
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else:
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serialization.logger.debug('Skipping node {}'.format(agent_id))
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return
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return self.set_agent(agent_id, agent_type, state)
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def set_agent(self, agent_id, agent_type, state=None):
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node = self.G.nodes[agent_id]
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defstate = deepcopy(self.default_state) or {}
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defstate.update(self.states.get(agent_id, {}))
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defstate.update(node.get('state', {}))
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if state:
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defstate.update(state)
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a = None
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if agent_type:
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state = defstate
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a = agent_type(model=self,
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unique_id=agent_id
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)
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for (k, v) in getattr(a, 'defaults', {}).items():
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if not hasattr(a, k) or getattr(a, k) is None:
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setattr(a, k, deepcopy(v))
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for (k, v) in state.items():
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setattr(a, k, v)
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node['agent'] = a
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self.schedule.add(a)
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return a
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def add_node(self, agent_type, state=None):
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agent_id = int(len(self.G.nodes()))
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self.G.add_node(agent_id)
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a = self.set_agent(agent_id, agent_type, state)
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a['visible'] = True
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return a
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def add_edge(self, agent1, agent2, start=None, **attrs):
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if hasattr(agent1, 'id'):
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agent1 = agent1.id
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if hasattr(agent2, 'id'):
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agent2 = agent2.id
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start = start or self.now
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return self.G.add_edge(agent1, agent2, **attrs)
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def step(self):
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super().step()
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self.schedule.step()
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def run(self, until, *args, **kwargs):
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self._save_state()
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while self.schedule.next_time < until:
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self.step()
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utils.logger.debug(f'Simulation step {self.schedule.time}/{until}. Next: {self.schedule.next_time}')
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self.schedule.time = until
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self._history.flush_cache()
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def _save_state(self, now=None):
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serialization.logger.debug('Saving state @{}'.format(self.now))
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self._history.save_records(self.state_to_tuples(now=now))
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def __getitem__(self, key):
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if isinstance(key, tuple):
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self._history.flush_cache()
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return self._history[key]
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return self.environment_params[key]
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def __setitem__(self, key, value):
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if isinstance(key, tuple):
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k = Key(*key)
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self._history.save_record(*k,
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value=value)
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return
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self.environment_params[key] = value
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self._history.save_record(dict_id='env',
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t_step=self.now,
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key=key,
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value=value)
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def __contains__(self, key):
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return key in self.environment_params
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def get(self, key, default=None):
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'''
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Get the value of an environment attribute in a
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given point in the simulation (history).
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If key is an attribute name, this method returns
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the current value.
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To get values at other times, use a
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:meth: `soil.history.Key` tuple.
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'''
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return self[key] if key in self else default
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def get_agent(self, agent_id):
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return self.G.nodes[agent_id]['agent']
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def get_agents(self, nodes=None):
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if nodes is None:
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return self.agents
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return (self.G.nodes[i]['agent'] for i in nodes)
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def dump_csv(self, f):
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with utils.open_or_reuse(f, 'w') as f:
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cr = csv.writer(f)
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cr.writerow(('agent_id', 't_step', 'key', 'value'))
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for i in self.history_to_tuples():
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cr.writerow(i)
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def dump_gexf(self, f):
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G = self.history_to_graph()
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# Workaround for geometric models
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# See soil/soil#4
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for node in G.nodes():
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if 'pos' in G.nodes[node]:
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G.nodes[node]['viz'] = {"position": {"x": G.nodes[node]['pos'][0], "y": G.nodes[node]['pos'][1], "z": 0.0}}
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del (G.nodes[node]['pos'])
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nx.write_gexf(G, f, version="1.2draft")
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def dump(self, *args, formats=None, **kwargs):
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if not formats:
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return
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functions = {
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'csv': self.dump_csv,
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'gexf': self.dump_gexf
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}
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for f in formats:
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if f in functions:
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functions[f](*args, **kwargs)
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else:
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raise ValueError('Unknown format: {}'.format(f))
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def dump_sqlite(self, f):
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return self._history.dump(f)
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def state_to_tuples(self, now=None):
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if now is None:
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now = self.now
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for k, v in self.environment_params.items():
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yield Record(dict_id='env',
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t_step=now,
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key=k,
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value=v)
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for agent in self.agents:
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for k, v in agent.state.items():
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yield Record(dict_id=agent.id,
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t_step=now,
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key=k,
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value=v)
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def history_to_tuples(self):
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return self._history.to_tuples()
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def history_to_graph(self):
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G = nx.Graph(self.G)
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for agent in self.network_agents:
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attributes = {'agent': str(agent.__class__)}
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lastattributes = {}
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spells = []
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lastvisible = False
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laststep = None
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history = self[agent.id, None, None]
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if not history:
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continue
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for t_step, attribute, value in sorted(list(history)):
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if attribute == 'visible':
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nowvisible = value
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if nowvisible and not lastvisible:
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laststep = t_step
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if not nowvisible and lastvisible:
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spells.append((laststep, t_step))
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lastvisible = nowvisible
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continue
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key = 'attr_' + attribute
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if key not in attributes:
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attributes[key] = list()
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if key not in lastattributes:
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lastattributes[key] = (value, t_step)
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elif lastattributes[key][0] != value:
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last_value, laststep = lastattributes[key]
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commit_value = (last_value, laststep, t_step)
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if key not in attributes:
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attributes[key] = list()
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attributes[key].append(commit_value)
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lastattributes[key] = (value, t_step)
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for k, v in lastattributes.items():
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attributes[k].append((v[0], v[1], None))
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if lastvisible:
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spells.append((laststep, None))
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if spells:
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G.add_node(agent.id, spells=spells, **attributes)
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else:
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G.add_node(agent.id, **attributes)
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return G
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def __getstate__(self):
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state = {}
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for prop in _CONFIG_PROPS:
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state[prop] = self.__dict__[prop]
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state['G'] = json_graph.node_link_data(self.G)
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state['environment_agents'] = self._env_agents
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state['history'] = self._history
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state['schedule'] = self.schedule
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return state
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def __setstate__(self, state):
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for prop in _CONFIG_PROPS:
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self.__dict__[prop] = state[prop]
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self._env_agents = state['environment_agents']
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self.G = json_graph.node_link_graph(state['G'])
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self._history = state['history']
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# self._env = None
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self.schedule = state['schedule']
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self._queue = []
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SoilEnvironment = Environment
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