Exemple #1
0
def testSimple():
    #Sometimes this backtracks
    global g
    g = NumboGraph(numble=Numble([1, 1, 1], 3))
    pg(g)
    g.do_timestep()
    print()
    pg(g)
Exemple #2
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    def get_actions_from_graph(self):
        '''Polls all the ActiveNodes for Actions and chooses which to
        do on this timestep.'''
        active_nodes = self.get_active_nodes()

        if (self.max_active_nodes is not None
            and
            len(active_nodes) > self.max_active_nodes
        ):
            active_nodes = self.choose_active_nodes(active_nodes)
        if (
            ShowActiveNodes.is_logging()
            or
            ShowActionList.is_logging()
            or
            ShowActionsChosen.is_logging()
        ):
            print(f'{chr(10)}t={self.graph["t"]}')

        if ShowActiveNodes.is_logging():
            print('ACTIVE NODES')
            pg(self, active_nodes)

        actions = self.collect_actions(active_nodes)
        if ShowActionList.is_logging():
            print('ACTIONS COLLECTED')
            self.print_actions(actions)

        # Filter out actions whose weight is below their threshold
        #actions = [a for a in actions if a.weight(self) >= a.threshold]
        actions = [a for a in actions if self.urgency(a) > 0.0]

        if len(actions) == 0:
            self.consecutive_timesteps_with_no_action += 1
            #HACK Crude boosting of random nodes to shake things up
            if self.consecutive_timesteps_with_no_action > 10:
                ns = list(self.nodes)
                for i in range(10):
                    nodeid = choice(ns)
                    #print('GROSS', self.nodestr(nodeid))
                    self.gross_boost_salience(nodeid)
        else:
            self.consecutive_timesteps_with_no_action = 0

        chosen_actions = self.choose_actions(actions)
        if ShowActionsChosen.is_logging():
            print('ACTIONS CHOSEN')
            self.print_actions(chosen_actions)
        return chosen_actions
Exemple #3
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def in_progress(seed=None,
                num_timesteps=None,
                watchers=default_watchers + [
                    EquationResultWatcher([2, 3], Times, 6),
                    EquationResultWatcher([1, 1], Plus, 2),
                    EquationResultWatcher([1, 1, 1], Plus, 3),
                    EquationResultWatcher([1, 2], Plus, 3)
                ]):
    '''This runs whatever I'm working on right now. --BEN'''
    global g
    g = NumboGraph(numble=Numble([1, 1, 1, 1, 1], 6),
                   seed=seed,
                   num_timesteps=num_timesteps,
                   watchers=watchers)
    two = g.make_node(Block(2))
    #g.add_tag(Seek, two)
    three = g.make_node(Block(3))
    #g.add_tag(Seek, three)
    pg(g)
    g.run()
Exemple #4
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# test at the end to appropriate source files.

from equation import EquationWatcher

from PortGraph import PortGraph, pg
from numbonodes import *


def make_numble(g, bricks, target):
    '''Makes a Workspace node containing numble and returns the Workspace's
    node id.'''
    ws = g.make_node(Workspace)
    for brick in bricks:
        brick_id = g.make_node(Brick(brick))
        g.add_member_edge(ws, brick_id)
    target_id = g.make_node(Target(target))
    g.add_member_edge(ws, target_id)
    return ws


if __name__ == '__main__':
    g = PortGraph()
    ws = g.members_to_subgraph(make_numble(g, [1, 1], 2))
    eqn = make_equation(g, [1, 1], Plus, 2)
    pg(g)
    print()
    watcher = EquationWatcher(g, eqn['equation_id'])
    saw = watcher.look(ws)
    saw[0].go(g)
    pg(g)
Exemple #5
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def close():
    global g
    g = NumboGraph(numble=Numble([120, 1, 2, 3, 4, 5], 121))
    pg(g)
    g.run()
Exemple #6
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def testInstantSuccess():
    g = NumboGraph(watchers=[WantedWatcher()], numble=Numble([1, 3, 1], 3))
    pg(g)
    g.do_timestep()
    print()
    pg(g)