from operator import itemgetter from fractions import Fraction from artiq.experiment import * from artiq.sim import devices as sim_devices from artiq.test.hardware_testbench import ExperimentCase def _run_on_host(k_class, **arguments): dmgr = dict() dmgr["core"] = sim_devices.Core(dmgr) k_inst = k_class(dmgr, **arguments) k_inst.run() return k_inst class _Primes(EnvExperiment): def build(self): self.setattr_device("core") self.setattr_argument("output_list") self.setattr_argument("maximum") def _add_output(self, x): self.output_list.append(x) @kernel def run(self): for x in range(1, self.maximum): d = 2 prime = True while d*d <= x: if x % d == 0: prime = False break d += 1 if prime: self._add_output(x) class _Misc(EnvExperiment): def build(self): self.setattr_device("core") self.input = 84 self.al = [1, 2, 3, 4, 5] self.list_copy_in = [2*Hz, 10*MHz] self.half_input = 0 self.acc = 0 self.list_copy_out = [] @kernel def run(self): self.half_input = self.input//2 self.acc = 0 for i in range(len(self.al)): self.acc += self.al[i] self.list_copy_out = self.list_copy_in class _PulseLogger(EnvExperiment): def build(self): self.setattr_device("core") self.setattr_argument("parent_test") self.setattr_argument("name") def _append(self, t, l, f): if not hasattr(self.parent_test, "first_timestamp"): self.parent_test.first_timestamp = t self.parent_test.output_list.append( (self.name, t-self.parent_test.first_timestamp, l, f)) def int_usec(self, mu): return round(mu_to_seconds(mu, self.core)*1000000) def on(self, t, f): self._append(self.int_usec(t), True, f) def off(self, t): self._append(self.int_usec(t), False, 0) @kernel def pulse(self, f, duration): self.on(now_mu(), f) delay(duration) self.off(now_mu()) class _Pulses(EnvExperiment): def build(self): self.setattr_device("core") self.setattr_argument("output_list") for name in "a", "b", "c", "d": pl = _PulseLogger(*self.managers(), parent_test=self, name=name) setattr(self, name, pl) @kernel def run(self): for i in range(3): with parallel: with sequential: self.a.pulse(100+i, 20*us) self.b.pulse(200+i, 20*us) with sequential: self.c.pulse(300+i, 10*us) self.d.pulse(400+i, 20*us) class _MyException(Exception): pass class _Exceptions(EnvExperiment): def build(self): self.setattr_device("core") self.setattr_argument("trace") def _trace(self, i): self.trace.append(i) @kernel def run(self): for i in range(10): self._trace(i) if i == 4: try: self._trace(10) try: self._trace(11) break except: pass else: self._trace(12) try: self._trace(13) except: pass except _MyException: self._trace(14) for i in range(4): try: self._trace(100) if i == 1: raise _MyException() elif i == 2: raise IndexError() except IndexError: self._trace(101) raise except: self._trace(102) else: self._trace(103) finally: self._trace(104) class _RPCExceptions(EnvExperiment): def build(self): self.setattr_device("core") self.setattr_argument("catch", PYONValue(False)) self.success = False def exception_raiser(self): raise _MyException @kernel def run(self): if self.catch: self.do_catch() else: self.do_not_catch() @kernel def do_not_catch(self): self.exception_raiser() @kernel def do_catch(self): try: self.exception_raiser() except _MyException: self.success = True class HostVsDeviceCase(ExperimentCase): def test_primes(self): l_device, l_host = [], [] self.execute(_Primes, maximum=100, output_list=l_device) _run_on_host(_Primes, maximum=100, output_list=l_host) self.assertEqual(l_device, l_host) def test_misc(self): for f in self.execute, _run_on_host: uut = f(_Misc) self.assertEqual(uut.half_input, 42) self.assertEqual(uut.acc, sum(uut.al)) self.assertEqual(uut.list_copy_in, uut.list_copy_out) def test_pulses(self): l_device, l_host = [], [] self.execute(_Pulses, output_list=l_device) _run_on_host(_Pulses, output_list=l_host) l_host = sorted(l_host, key=itemgetter(1)) for channel in "a", "b", "c", "d": c_device = [x for x in l_device if x[0] == channel] c_host = [x for x in l_host if x[0] == channel] self.assertEqual(c_device, c_host) def test_exceptions(self): t_device, t_host = [], [] with self.assertRaises(IndexError): self.execute(_Exceptions, trace=t_device) with self.assertRaises(IndexError): _run_on_host(_Exceptions, trace=t_host) self.assertEqual(t_device, t_host) def test_rpc_exceptions(self): for f in self.execute, _run_on_host: with self.assertRaises(_MyException): f(_RPCExceptions, catch=False) uut = self.execute(_RPCExceptions, catch=True) self.assertTrue(uut.success)