def compl3(): clk, tick = clock() sp = fmap(lambda _: random.random(), repeat(0.2, clk)) events = merge([clk, sp], ['clock', 'value']) def update(state: Tuple[float, float], event) -> Tuple[float, float]: channel, data = event start_at, acc = state if channel == 'clock': if data - start_at > time_thres: print('failed') return (data, 0) return state if channel == 'value': new_value = acc + data print(new_value) if new_value >= value_thres: print('met') return (time.time(), 0) return (start_at, new_value) else: return state scan(update, (time.time(), 0), events) tick()
def compl2(): # compl using async transformation clk, tick = clock() sp = fmap(soft(random.random), repeat(0.2, clk)) # aysnc generator transformation async def fn(s): acc = 0 last = math.inf async for topic, v in s: if topic == 'clock': if acc > value_thres: met = True if v - last > time_thres or acc > value_thres: yield 'met' if met else 'fail' yield 0 met = False acc = 0 last = v elif topic == 'value': acc += v yield acc # map the transformation over async generators to that over streams res = fmap_async(fn, merge([clk, sp], ['clock', 'value'])) # hook to print trace res.hook = print tick()
def test_repeat_fraction(): clk = Stream(None) clk.clock = clk s = record(repeat(2.5, clk)) clk(0) clk(1) clk(2) clk(3) clk(4) clk(5) clk(6) assert s.footprint == [0, 3, 6]
def amain(): clk, tick = clock() counter1 = iter(range(1, 1000)) sp = fmap(lambda _: next(counter1), repeat(1, clk)) async def mult2(s): async for e in s: if e % 5 != 0: yield e * 2 sp2 = fmap_async(mult2, sp) sp2.hook = print tick()
def action_q(): clk, tick = clock() events = Stream(clk) def update(state: float, event) -> float: channel, data = event acc = state if channel == 'reset': return 0 else: acc += data if acc >= 3: events(('reset', None)) return acc sp = fmap(const(('value', 1)), repeat(0.4, clk)) each(events, sp) states = scan(update, 0, events) states.hook = print tick()
def compl(): # init the clock clk, tick = clock() # construct streams sp = fmap(soft(random.random), repeat(0.2, clk)) term = Stream(clk) interrupt = timeout(time_thres, term, term) value = merge([sp, fmap(const(-1), term)]) acc = scan(lambda acc, v: acc + v if v >= 0 else 0, 0, value) met = changed(lambda _, y: y <= value_thres, acc) each(term, merge([met, interrupt])) # hook to print trace acc.hook = print met.hook = bind(print, 'met!') interrupt.hook = bind(print, 'fail!') # start clock tick()
def main(): clk, tick = clock() sp = sequence(1, iter(range(1, 1000)), clk) sn = sequence(2, iter(range(-1, -1000, -1)), clk) sns = scan(lambda acc, x: acc + x, 0, sn) spu = changed(lambda x, y: x == y, sp) spuf = where(lambda x: x % 3 != 0, spu) sm = merge([spuf, sns]) ss = trace(lambda x: x % 2, 9999, sm) sst = flatten(fmap(lambda s: diff(lambda x, y: y - x, 0, s), ss)) sst.hook = print sp(2) sp(1) sp(1) sstop = fmap(lambda _: 'stop', repeat(5, clk)) sto = timeout(1.5, sstop, sn) events = merge([sn, sstop, sto]) events.hook = print tick()
def timing(): clk, tick = clock() a = fmap(lambda _: 1, repeat(0.3, clk)) b = fmap(lambda _: 22222222, a) each(print, merge([a, b])) tick()