def test_arithmetic_to_here(self) -> None: fm = StdModel() ca = fm.build( SeqCanvas.make(Avails(4, 5, 6), Plus(4, 5), None, None, None)) self.assertFalse(ca.cell_at(2).has_tag(ArithmeticToHere)) self.assertFalse(ca.cell_at(4).has_tag(ArithmeticToHere)) try: fm.run(ca) except RunAborted: pass self.assertTrue(ca.cell_at(2).has_tag(ArithmeticToHere)) self.assertFalse(ca.cell_at(4).has_tag(ArithmeticToHere)) ca.paint(3, Plus(9, 6)) self.assertTrue(ca.cell_at(2).has_tag(ArithmeticToHere)) self.assertFalse(ca.cell_at(4).has_tag(ArithmeticToHere)) fm.run(ca) self.assertTrue(ca.cell_at(2).has_tag(ArithmeticToHere)) self.assertTrue(ca.cell_at(4).has_tag(ArithmeticToHere)) # Now we check that painting on the canvas removes ArithmeticToHere() # from the painted cell to the end of the canvas. ca.paint(3, None) self.assertTrue(ca.cell_at(2).has_tag(ArithmeticToHere)) self.assertFalse(ca.cell_at(4).has_tag(ArithmeticToHere))
def test_hasavail9_to_tagpred(self) -> None: fm = StdModel() ca = fm.build( SeqCanvas.make( Avails(4, 5), Plus(4, 5), Avails(9), # This test will fail if this cell contains None )) cr0 = ca.cellref(0) cr1 = ca.cellref(1) cr2 = ca.cellref(2) ha5 = HasAvail(target=5) got = HasTag.make_from(HasAvail(5)) self.assertEqual(got, HasTag(PTag(HasAvail(5)))) # cr0 has the condition but not the tag self.assertTrue(ha5.run(noderef=cr0)) self.assertFalse(fm.has_tag(cr2, PTag(HasAvail(5)))) self.assertFalse(got(cr0)) # Falsely adding the tag to cr2 fm.add_tag(cr2, PTag(HasAvail(5))) self.assertFalse(ha5.run(noderef=cr2)) self.assertTrue(fm.has_tag(cr2, PTag(HasAvail(5)))) self.assertTrue(got(cr2))
def test_avail_tagger(self) -> None: fm = StdModel() ca = fm.build(SeqCanvas.make( Avails(4, 5), Plus(4, 5), None, )) cr0 = ca.cellref(0) cr1 = ca.cellref(1) cr2 = ca.cellref(2) ha5 = HasAvail(target=5) ha9 = HasAvail(target=9) self.assertTrue(ha5.run(noderef=cr0)) self.assertFalse(ha9.run(noderef=cr0)) self.assertFalse(ha5.run(noderef=cr1)) self.assertFalse(ha9.run(noderef=cr1)) self.assertFalse(ha5.run(noderef=cr2)) self.assertFalse(ha9.run(noderef=cr2)) sc = fm.build(Tagger(HasAvail(target=9))) sc.run_on(fm, cr2) self.assertFalse(fm.has_tag(cr2, HasAvail), cr2.get()) fm.run(ca) self.assertFalse(ha5.run(noderef=cr2)) self.assertTrue(ha9.run(noderef=cr2)) sc.run_on(fm, cr2) self.assertTrue(fm.has_tag(cr2, HasAvail), cr2.get())
def test_respond_to_missing_operands(self) -> None: fm = StdModel() ca = fm.build(SeqCanvas.make( Avails(4, 5), Plus(), None, )) fm.run(ca, empty_args_map)
def test_painting_over(self) -> None: fm = StdModel() ca = fm.build(SeqCanvas.make( Avails(4, 5), None, # No codelet None, )) fm.paint(ca.cellref(1), Plus(4, 5)) self.assertEqual(ca[1], Plus(4, 5)) fm.paint(ca.cellref(1), Mult(2, 3)) self.assertEqual(ca[1], Mult(2, 3)) self.assertTrue(fm.has_node(Plus(4, 5))) fm.paint(ca.cellref(1), dict(operands=(4, 5))) self.assertEqual(ca[1], Complex(Mult(2, 3), operands=(4, 5))) run(ca, empty_args_map) self.assertEqual(ca[2], Avails(20))
def test_finish_structure(self) -> None: fm = StdModel() ca = fm.build(SeqCanvas.make( Avails(4, 5), Plus(), None, )) co1 = FinishStructure(ca.cellref(1)) co2 = fm.run(co1, empty_args_map) self.assertEqual(co2, FillFromAvails(noderef=ca.cellref(1)))
def test_4_plus_5(self) -> None: ca = SeqCanvas.make( Avails(4, 5), Plus(4, 5), None, ) run(ca, empty_args_map) self.assertEqual(ca[2], Avails(9)) self.assertEqual(pss(ca), '[ 4 5 ][ 4 + 5 ][ 9 ]\n')
def test_4_plus_5(self) -> None: ca = SeqCanvas.make( Avails(4, 5), Plus(4, 5), None, ) run(ca, empty_args_map) self.assertEqual(ca[2], Avails(9)) sio = StringIO() ps(ca, file=sio) self.assertEqual(sio.getvalue(), '[ 4 5 ][ 4 + 5 ][ 9 ]\n')
def test_missing_operands_fill_from_avails(self) -> None: fm = StdModel() ca = fm.build(SeqCanvas.make( Avails(4, 5), Plus(), None, )) with self.assertRaises(NotEnoughOperands) as cm: run(ca, empty_args_map) self.assertEqual(cm.exception.codelet, Plus()) self.assertTrue(fm.has_tag(ca.cellref(1), NotEnoughOperands)) co = FillFromAvails(noderef=ca.cellref(1)) paint: Any = fm.run(co, empty_args_map) self.assertTrue(match_wo_none(paint, Paint(noderef=ca.cellref(1)))) self.assertCountEqual(paint.content['operands'], (4, 5)) self.assertTrue(fm.has_tag(ca.cellref(1), NotEnoughOperands)) fm.run(paint, empty_args_map) fm.run(ca, empty_args_map) self.assertEqual(ca[2], Avails(9))
def test_detect_successfully_completed_canvas(self) -> None: fm = StdModel() ca = fm.build(SeqCanvas.make( Avails(4, 5), Plus(), None, )) sc = fm.build( Tagger( SuccessfulCanvas(9) #TagConjunction((HasAvail(9), ArithmeticToHere)), #scope=ca ))
def test_complex(self) -> None: c1 = Complex(Plus(4, 5), operands=(4, 6)) ca = SeqCanvas.make( Avails(4, 5, 6), c1, None, ) run(ca, empty_args_map) self.assertEqual(ca[2], Avails(5, 10)) c2 = Complex(c1, operands=(5, 6)) ca.paint(1, c2) run(ca, empty_args_map) self.assertEqual(ca[2], Avails(4, 11))
def test_detector(self) -> None: fm = StdModel() ca = fm.build(SeqCanvas.make( Avails(4, 5), Plus(), None, )) de = fm.build( Detector(watch=ca, watch_for=HasTag(NotEnoughOperands), then=FinishStructure)) fm.do_timestep(run=ca) assert fm.has_tag(ca.cellref(1), NotEnoughOperands) fm.run(de) self.assertTrue(fm.has_node(FinishStructure(ca.cellref(1))))