artiq/test/full_stack.py

import unittest

from artiq.language.core import *
from artiq.language.units import *
from artiq.devices import corecom_serial, core, runtime_exceptions, rtio_core
from artiq.sim import devices as sim_devices


def _run_on_device(k_class, **parameters):
    with corecom_serial.CoreCom() as com:
        coredev = core.Core(com)
        k_inst = k_class(core=coredev, **parameters)
        k_inst.run()


def _run_on_host(k_class, **parameters):
    coredev = sim_devices.Core()
    k_inst = k_class(core=coredev, **parameters)
    k_inst.run()


class _Primes(AutoContext):
    parameters = "output_list max"

    @kernel
    def run(self):
        for x in range(1, self.max):
            d = 2
            prime = True
            while d*d <= x:
                if x % d == 0:
                    prime = False
                    break
                d += 1
            if prime:
                self.output_list.append(x)


class _PulseLogger(AutoContext):
    parameters = "name"

    def print_on(self, t, f):
        print("{} ON:{:4} @{}".format(self.name, f, t))

    def print_off(self, t):
        print("{}   OFF   @{}".format(self.name, t))

    @kernel
    def pulse(self, f, duration):
        self.print_on(int(now()), f)
        delay(duration)
        self.print_off(int(now()))


class _PulseTest(AutoContext):
    def build(self):
        for name in "a", "b", "c", "d":
            pl = _PulseLogger(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 SimCompareCase(unittest.TestCase):
    def test_primes(self):
        l_device, l_host = [], []
        _run_on_device(_Primes, max=100, output_list=l_device)
        _run_on_host(_Primes, max=100, output_list=l_host)
        self.assertEqual(l_device, l_host)

    def test_pulses(self):
        # TODO: compare results on host and device
        # (this requires better unit management in the compiler)
        _run_on_device(_PulseTest)


class _RTIOLoopback(AutoContext):
    parameters = "i o npulses"

    def report(self, n):
        self.result = n

    @kernel
    def run(self):
        with parallel:
            with sequential:
                for i in range(self.npulses):
                    delay(25*ns)
                    self.o.pulse(25*ns)
            self.i.count_rising(10*us)
        self.report(self.i.sync())


class _RTIOUnderflow(AutoContext):
    parameters = "o"

    @kernel
    def run(self):
        while True:
            delay(25*ns)
            self.o.pulse(25*ns)


class RTIOCase(unittest.TestCase):
    def test_loopback(self):
        npulses = 4
        with corecom_serial.CoreCom() as com:
            coredev = core.Core(com)
            uut = _RTIOLoopback(
                core=coredev,
                i=rtio_core.RTIOCounter(core=coredev, channel=0),
                o=rtio_core.RTIOOut(core=coredev, channel=1),
                npulses=npulses
            )
            uut.run()
            self.assertEqual(uut.result, npulses)

    def test_underflow(self):
        with corecom_serial.CoreCom() as com:
            coredev = core.Core(com)
            uut = _RTIOUnderflow(
                core=coredev,
                o=rtio_core.RTIOOut(core=coredev, channel=1)
            )
            with self.assertRaises(runtime_exceptions.RTIOUnderflow):
                uut.run()
Turn some examples into unit tests 2014-09-24 23:43:22 +08:00			`import unittest`

			`from artiq.language.core import *`
			`from artiq.language.units import *`
test: RTIO underflow exception 2014-09-25 12:57:52 +08:00			`from artiq.devices import corecom_serial, core, runtime_exceptions, rtio_core`
Turn some examples into unit tests 2014-09-24 23:43:22 +08:00			`from artiq.sim import devices as sim_devices`


			`def _run_on_device(k_class, **parameters):`
			`with corecom_serial.CoreCom() as com:`
			`coredev = core.Core(com)`
			`k_inst = k_class(core=coredev, **parameters)`
			`k_inst.run()`


			`def _run_on_host(k_class, **parameters):`
			`coredev = sim_devices.Core()`
			`k_inst = k_class(core=coredev, **parameters)`
			`k_inst.run()`


			`class _Primes(AutoContext):`
			`parameters = "output_list max"`

			`@kernel`
			`def run(self):`
			`for x in range(1, self.max):`
			`d = 2`
			`prime = True`
			`while d*d <= x:`
			`if x % d == 0:`
			`prime = False`
			`break`
			`d += 1`
			`if prime:`
			`self.output_list.append(x)`


			`class _PulseLogger(AutoContext):`
			`parameters = "name"`

			`def print_on(self, t, f):`
			`print("{} ON:{:4} @{}".format(self.name, f, t))`

			`def print_off(self, t):`
			`print("{} OFF @{}".format(self.name, t))`

			`@kernel`
			`def pulse(self, f, duration):`
			`self.print_on(int(now()), f)`
			`delay(duration)`
			`self.print_off(int(now()))`


			`class _PulseTest(AutoContext):`
			`def build(self):`
			`for name in "a", "b", "c", "d":`
			`pl = _PulseLogger(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 SimCompareCase(unittest.TestCase):`
			`def test_primes(self):`
			`l_device, l_host = [], []`
			`_run_on_device(_Primes, max=100, output_list=l_device)`
			`_run_on_host(_Primes, max=100, output_list=l_host)`
			`self.assertEqual(l_device, l_host)`

			`def test_pulses(self):`
			`# TODO: compare results on host and device`
			`# (this requires better unit management in the compiler)`
			`_run_on_device(_PulseTest)`


			`class _RTIOLoopback(AutoContext):`
			`parameters = "i o npulses"`

			`def report(self, n):`
			`self.result = n`

			`@kernel`
			`def run(self):`
			`with parallel:`
			`with sequential:`
			`for i in range(self.npulses):`
			`delay(25*ns)`
			`self.o.pulse(25*ns)`
			`self.i.count_rising(10*us)`
			`self.report(self.i.sync())`


test: RTIO underflow exception 2014-09-25 12:57:52 +08:00			`class _RTIOUnderflow(AutoContext):`
			`parameters = "o"`

			`@kernel`
			`def run(self):`
minor cleanups 2014-09-26 17:21:51 +08:00			`while True:`
test: RTIO underflow exception 2014-09-25 12:57:52 +08:00			`delay(25*ns)`
			`self.o.pulse(25*ns)`


Turn some examples into unit tests 2014-09-24 23:43:22 +08:00			`class RTIOCase(unittest.TestCase):`
			`def test_loopback(self):`
			`npulses = 4`
			`with corecom_serial.CoreCom() as com:`
			`coredev = core.Core(com)`
test: RTIO underflow exception 2014-09-25 12:57:52 +08:00			`uut = _RTIOLoopback(`
Turn some examples into unit tests 2014-09-24 23:43:22 +08:00			`core=coredev,`
			`i=rtio_core.RTIOCounter(core=coredev, channel=0),`
			`o=rtio_core.RTIOOut(core=coredev, channel=1),`
			`npulses=npulses`
			`)`
test: RTIO underflow exception 2014-09-25 12:57:52 +08:00			`uut.run()`
			`self.assertEqual(uut.result, npulses)`

			`def test_underflow(self):`
			`with corecom_serial.CoreCom() as com:`
			`coredev = core.Core(com)`
			`uut = _RTIOUnderflow(`
			`core=coredev,`
			`o=rtio_core.RTIOOut(core=coredev, channel=1)`
			`)`
			`with self.assertRaises(runtime_exceptions.RTIOUnderflow):`
			`uut.run()`