예제 #1
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    def test_litpainter_antipathy(self):
        fm = FARGModel()
        self.assertLess(fm.mutual_antipathy_weight, 0.0,
                        'mutual_antipathy_weight must be negative')
        ca = fm.build(SeqCanvas([SeqState((4, 5, 6), None)]))
        cr = CellRef(ca, 1)  # pointer to 2nd cell on canvas

        state1 = SeqState((9, 6), ArithDelta((4, 5), 9, plus))
        lp1 = fm.build(LitPainter(cr, state1))
        state2 = SeqState((10, 5), ArithDelta((4, 6), 10, plus))
        lp2 = fm.build(LitPainter(cr, state2))

        self.assertTrue(fm.has_antipathy_to(lp1, lp2))
        self.assertFalse(fm.has_antipathy_to(lp1, lp1))
        self.assertEqual(fm.ae_weight(lp1, lp2), fm.mutual_antipathy_weight)

        self.assertTrue(fm.can_go(lp1))
        self.assertTrue(fm.can_go(lp2))

        self.assertFalse(cr.has_value())

        # When lp1 paints, lp2 should be locked out
        fm.run(lp1)
        self.assertEqual(cr.value, state1)
        self.assertTrue(cr.has_value())
        self.assertFalse(fm.can_go(lp2))
예제 #2
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    def test_consume(self):
        fm = FARGModel()
        ca = fm.build(SeqCanvas([SeqState((4, 5, 6), None)]))
        cr0 = fm.build(CellRef(ca, 0))
        cr1 = fm.build(CellRef(ca, 1))

        self.assertCountEqual(cr0.avails, [4, 5, 6])
        self.assertCountEqual(cr1.avails, [])

        co = fm.build(Consume(plus, (4, 5), source=cr0, dest=cr1))
        fm.run(co)
        lp = fm.the(LitPainter)
        self.assertEqual(
            lp, LitPainter(cr1, SeqState((6, 9), ArithDelta((4, 5), 9, plus))))
        self.assertEqual(fm.builder_of(lp), co)
        self.assertEqual(fm.ae_weight(co, lp), fm.mutual_support_weight)
        #TODO UT behalf_of
        #self.assertCountEqual(fm.neighbors(co), [lp])
        self.assertIn(lp, fm.neighbors(co))
        self.assertIn(cr0, fm.neighbors(co))
        self.assertIn(cr1, fm.neighbors(co))

        self.assertCountEqual(cr1.avails, [])
        fm.run(lp)
        self.assertCountEqual(cr1.avails, [6, 9])
예제 #3
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    def test_basics(self):
        fm = FARGModel()

        # Did it initialize a random-number seed?
        self.assertIsInstance(fm.seed, int)
        # Build something
        ca = fm.build(SeqCanvas([SeqState((4, 5, 6), None)]))
        # Is it there?
        eiws = fm.get_eiws(ca)
        self.assertEqual(eiws.elem, ca)
        # Can we find it by exact match?
        self.assertEqual(fm.the(ca), ca)
        # Can we find it by searching for its class?
        self.assertEqual(fm.the(Canvas), ca)
        # Does it have initial activation?
        self.assertEqual(fm.a(ca), 1.0)

        # TODO Check builder and behalf_of

        # TODO Log the BUILT?
        cr = fm.build(CellRef(ca, 1))  # pointer to 2nd cell on canvas
        # TODO auto-support between CellRef and Canvas? (as in next line)
        #self.assertEqual(fm.ae_weight(cr, ca), fm.mutual_support_weight)
        delta = ArithDelta((4, 5), 9, plus)
        state1 = SeqState((9, 6), delta)
        fm.paint(cr, state1)  # TODO paint_on()?
        self.assertEqual(ca[1], state1)
예제 #4
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    def test_want_w_forced(self):
        fm = TestFM()
        ca = fm.build(SeqCanvas([SeqState((4, 5, 6), None)]))
        cr0 = fm.build(CellRef(ca, 0))
        cr1 = cr0.next_cellref()
        wa = fm.build(Want(target=15,
                           startcell=cr0,
                           sk=RaiseException(TestFoundIt)),
                      min_a=4.0)
        # TODO assert that cr1 got build as an Elem in the ws?
        self.assertEqual(fm.a(wa), 4.0)

        # The Want should build a Consume
        expected_co = Consume(plus, (5, 4))
        fm.run(wa, force_slipnet_result=[expected_co])
        co = fm.the(expected_co)
        self.assertEqual(co, Consume(plus, (5, 4), source=cr0, dest=cr1))
        self.assertEqual(fm.builder_of(co), wa)
        self.assertIn(co, fm.built_by(wa))
        self.assertTrue(fm.can_go(co))

        # The Consume should build a LitPainter
        fm.run(co)
        expected_value = SeqState((6, 9), ArithDelta((5, 4), 9, plus))
        lp = fm.the(LitPainter)
        self.assertEqual(lp, LitPainter(cr1, expected_value))
        self.assertTrue(fm.is_mutual_support(co, lp))
        self.assertFalse(fm.can_go(co))

        # The LitPainter shouldn't paint yet: activation is too low
        self.assertFalse(fm.ok_to_paint(lp, cr1))
        self.assertFalse(fm.can_go(lp))

        # Eventually, the LitPainter should be able to paint
        fm.propagate_a(num=30)
        self.assertTrue(fm.ok_to_paint(lp, cr1))
        self.assertTrue(fm.can_go(lp))
        self.assertEqual(fm.the(cr1), cr1)

        # When the LitPainter paints, it should be marked Succeeded
        fm.run(lp)
        self.assertEqual(fm.agent_state(lp), Succeeded())
        self.assertTrue(fm.has_succeeded(lp))
        self.assertFalse(fm.can_go(lp))

        # The Consume should be marked MustCheckIfSucceeded
        self.assertIsInstance(fm.agent_state(co), MustCheckIfSucceeded)

        # Running the Consume should make it see that it has succeeded
        fm.run(co)
        self.assertTrue(fm.has_succeeded(co))
        self.assertFalse(fm.can_go(co))
        self.assertIsInstance(fm.agent_state(wa), MustCheckIfSucceeded)

        # Running the Want should make it see that it has still not succeeded
        fm.run(wa)
        self.assertIsInstance(fm.agent_state(wa), Active)
        self.assertFalse(fm.has_succeeded(wa))
예제 #5
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 def test_litpainter(self):
     fm = FARGModel()
     ca = fm.build(SeqCanvas([SeqState((4, 5, 6), None)]))
     cr = CellRef(ca, 1)  # pointer to 2nd cell on canvas
     state1 = SeqState((9, 6), ArithDelta((4, 5), 9, plus))
     lp = fm.build(LitPainter(cr, state1))
     lp.go(fm)  # TODO Call fm.go() and let it fill in args?
     # TODO A threshold for painting
     self.assertEqual(ca[1], state1)
     self.assertTrue(fm.is_mutual_support(lp, cr))
예제 #6
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    def test_no_duplicate(self):
        fm = FARGModel()
        ca = fm.build(SeqCanvas([SeqState((4, 5, 6), None)]))
        cr = CellRef(ca, 1)  # pointer to 2nd cell on canvas

        state1 = SeqState((9, 6), ArithDelta((4, 5), 9, plus))
        lp1a = fm.build(LitPainter(cr, state1))
        lp1b = fm.build(LitPainter(cr, state1))
        self.assertIs(lp1a, lp1b)

        state2 = SeqState((10, 5), ArithDelta((4, 6), 10, plus))
        lp2 = fm.build(LitPainter(cr, state2))
        self.assertIsNot(lp1a, lp2)
예제 #7
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    def test_avail_detector(self):
        fm = FARGModel()
        ca = fm.build(SeqCanvas([SeqState((4, 5, 6), None)]))
        cr0 = fm.build(CellRef(ca, 0))
        cr1 = fm.build(CellRef(ca, 1))

        # TODO The Detector should only look within ca
        det = fm.build(AvailDetector(9, CellRef, RaiseException(TestFoundIt)))
        det.look(fm)

        fm.paint(cr1, SeqState((6, 9), ArithDelta((4, 5), 9, plus)))
        with self.assertRaises(TestFoundIt):
            for _ in range(40):
                det.look(fm)
예제 #8
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파일: Numbo1a.py 프로젝트: bkovitz/FARGish
def r4_5_6__15(*args, **kwargs):
    global fm, ca, wa
    fm = Numbo(*args, **kwargs)
    ca = fm.build(SeqCanvas([SeqState((4, 5, 6), None)]))
    wa = fm.build(Want(15, CellRef(ca, 0)))
    fm.do_timestep(num=19)
    pr(fm, edges=True)
    print()
    #fm.pr_flows()
    print(f'seed={fm.seed}')
예제 #9
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    def test_gettingcloser(self):
        fm = TestFM(seed=1)
        ca = fm.build(SeqCanvas([SeqState((4, 5, 6), None)]))
        cr0 = CellRef(ca, 0)
        cr1 = CellRef(ca, 1)
        co = fm.build(Consume(plus, (6, 5), source=cr0, dest=cr1))
        fm.run(co)
        lp = fm.the(LitPainter)
        self.assertGreater(GettingCloser.calc_weight(lp, 15), 0.1)

        tagger = fm.build(GettingCloser.Tagger(15))
        tagger.look(fm)
        self.assertTrue(fm.is_tagged(lp, GettingCloser))
예제 #10
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    def test_blocked_makes_want(self):
        fm = TestFM(seed=1)
        ca = fm.build(SeqCanvas([SeqState((4, 5, 6), None)]))
        cr0 = fm.build(CellRef(ca, 0))
        cr1 = cr0.next_cellref()
        co69 = fm.build(Consume(plus, (6, 9), source=cr0, dest=cr1))

        fm.run(co69)
        bl = fm.the(Blocked)  # TODO query for built_by co69
        assert bl is not None

        fm.run(bl)
        wa = fm.the(Want)  # TODO query for built_by bl
        self.assertIsNotNone(wa)
        self.assertEqual(wa.target, 9)
        self.assertEqual(wa.startcell, cr0)
        self.assertEqual(wa.sk, RemoveBlocked(bl))

        fm.run(wa, force_slipnet_result=Consume(plus, (4, 5)))
        co45 = fm.the(Consume(plus, (4, 5)))
        self.assertEqual(co45, Consume(plus, (4, 5), source=cr0, dest=cr1))

        fm.run(co45)
        lp9 = fm.the(LitPainter)
        self.assertIsNotNone(lp9)

        fm.run(lp9)
        self.assertTrue(fm.has_succeeded(lp9))
        self.assertIsInstance(fm.agent_state(co45), MustCheckIfSucceeded)

        fm.run(co45)
        self.assertTrue(fm.has_succeeded(co45))
        self.assertIsInstance(fm.agent_state(wa), MustCheckIfSucceeded)

        fm.run(wa)
        self.assertTrue(fm.has_succeeded(wa))
        cr2 = cr1.next_cellref()
        co69b = fm.the(Consume(plus, (6, 9)))
        self.assertEqual(co69b.source, cr1)
        self.assertEqual(co69b.dest, cr2)
        self.assertFalse(fm.is_blocked(co69b))
        self.assertIsNone(fm.the(Blocked))
        self.assertIsInstance(fm.agent_state(co69b), Active)
        # TODO Make sure node for cr[2] gets built

        fm.run(co69b)
        lp15 = fm.the(LitPainter(cellref=cr2))
        self.assertEqual(lp15.value.avails, (15, ))

        fm.run(lp15)
        self.assertTrue(fm.has_succeeded(lp15))
예제 #11
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 def test_timesteps(self):
     # Little more than a smoke test: start with Want and a SeqCanvas,
     # run a few timesteps, and verify that there are some more Elems.
     fm = TestFM(seed=1)
     self.assertEqual(fm.seed, 1)
     ca = fm.build(SeqCanvas([SeqState((4, 5, 6), None)]))
     self.assertEqual(len(fm), 1)
     cr0 = CellRef(ca, 0)
     wa = fm.build(Want(target=15,
                        startcell=cr0,
                        sk=RaiseException(TestFoundIt)),
                   min_a=4.0)
     fm.do_timestep(until=10)
     self.assertEqual(fm.t, 10)
     self.assertGreaterEqual(len(fm), 5)
예제 #12
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    def test_values_not_avail(self):
        fm = FARGModel()
        ca = fm.build(SeqCanvas([SeqState((4, 5, 6), None)]))
        cr0 = CellRef(ca, 0)
        cr1 = CellRef(ca, 1)

        # This must fail because there is only one 4 avail
        co = fm.build(Consume(plus, (4, 4), source=cr0, dest=cr1))
        self.assertTrue(fm.can_go(co))
        fm.run(co)
        self.assertIsNone(fm.the(LitPainter))
        # TODO fm.tags_of()
        self.assertTrue(fm.is_tagged(co, Blocked))
        self.assertTrue(fm.is_blocked(co))
        self.assertFalse(fm.can_go(co))
        bl = first(e for e in fm.built_by(co) if isinstance(e, Blocked))
        self.assertIsNotNone(bl)
        self.assertEqual(bl.reason.avails, (4, None))
        self.assertEqual(bl.reason.unavails, (None, 4))
        self.assertGreater(fm.ae_weight(co, bl), 0.0)
예제 #13
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        A Cell or CellRef should store the threshold to paint on it. Possibly
        a minimum activation level for the painter, and/or 'the painter clearly
        beats its competition.'

        ImLitPainter: represents a move that we can't do yet because we lack
        avails; not as promising as a LitPainter that can really go

        build a sub-Want
        'slip' a Want?

        Glomming
        NumberLine
        match/similarity measure

        """


if __name__ == '__main__':
    fm = TestFM(seed=1)
    ca = fm.build(SeqCanvas([SeqState((4, 5, 6), None)]))
    cr0 = CellRef(ca, 0)  # type: ignore[arg-type]
    wa = fm.build(Want(target=15,
                       startcell=cr0,
                       sk=RaiseException(TestFoundIt)),
                  min_a=4.0)
    fm.do_timestep(until=40)
    #pr(fm, edges=True, seed=True, extra=True)
    pr(fm, (LitPainter, Want), edges=True, extra=True)
    pr(fm, SeqCanvas)