示例#1
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def greater_than_tommorow(date):
    secs = urtc.tuple2seconds(datetime()) + _SECS_IN_DAY

    year, month, day = date.split('-')
    curr = urtc.datetime_tuple(int(year), int(month), int(day), 0, 0, 0, 0, 0)
    curr_sec = urtc.tuple2seconds(curr)

    return curr_sec > secs
示例#2
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def countdown(now, at):
    schedule = urtc.datetime_tuple(year=now.year,
                                   month=now.month,
                                   day=now.day,
                                   weekday=now.weekday,
                                   hour=at[0],
                                   minute=at[1],
                                   second=0)

    return urtc.tuple2seconds(now) - urtc.tuple2seconds(schedule)
示例#3
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def equal_to_today(date):
    dt = datetime()
    today = urtc.datetime_tuple(dt.year, dt.month, dt.day, 0, 0, 0, 0, 0)
    secs = urtc.tuple2seconds(today)

    year, month, day = date.split('-')
    curr = urtc.datetime_tuple(int(year), int(month), int(day), 0, 0, 0, 0, 0)
    curr_sec = urtc.tuple2seconds(curr)

    return curr_sec == secs
示例#4
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def datetime():
    """Get the current timezone date/time from RTC.

    The result is an 8-tuple of the format
    (year, month, day, weekday, hour, minute, second, millisecond)
    """
    gmt_secs = urtc.tuple2seconds(gmt())
    gmt_secs += config.HOURS_DIFF_FROM_GMT * _SECS_IN_HOUR
    return urtc.seconds2tuple(int(gmt_secs))
    async def run_timer(self):
        global timestamp_unix  # TODO fix this when interval timer becomes a class
        ds3231.alarm(False, alarm=0)  # TODO fix this coupling
        while True:
            time_now = urtc.tuple2seconds(ds3231.datetime())
            
            # calculate the next alarm time, aligned to the desired interval
            # e.g.  interval=15mins ==>  align to 00, 15, 30, 45 mins
            time_now += 5  # eliminate risk of timing hazard close to interval boundary
            wake_time = ((time_now // LOGGING_INTERVAL_IN_SECS) + 1 ) * LOGGING_INTERVAL_IN_SECS
            
            # set day-of-week (4th element) to None so alarm uses day-of-month (urtc module API requirement)
            # some gymnastics needed ...
            wake_time_tuple = urtc.seconds2tuple(int(wake_time))
            wake_time_list = list(wake_time_tuple)
            wake_time_list[3]=None  
            ds3231.alarm_time(wake_time_list, alarm=0)  # TODO fix coupling   
            log.info('TMR:next sensor read at %s', wake_time_list)
            log.info('TMR:waiting for DS3231 alarm')
            # loop until the DS3231 alarm is detected 
            while ds3231.alarm(alarm=0) == False:
                await asyncio.sleep_ms(250)

            timestamp_unix = epoch_time_upy_to_unix(urtc.tuple2seconds(ds3231.datetime()))
            # clear alarm    
            ds3231.alarm(False, alarm=0)
            log.info('TMR:DS3231 alarm -> read all sensors')
            # dispatch a whole pile of activity
            # following sequence is deliberately sequential so PM2.5 sensor is powered off when
            # the Spec Sensor devices are being read
            await ps.read_pm()
            await spec_sensors.read_all()
            await temp_hum.read()
            await sdcard_logger.run_logger()
            if modes[operating_mode].mqtt == 1:
                self.event_mqtt_publish.set()
            mem_free_before_gc = gc.mem_free()
            log.debug('TMR:gc mem_free = %d bytes', mem_free_before_gc)
            gc.collect()
            log.debug('TMR:gc freed %d bytes', gc.mem_free() - mem_free_before_gc)
示例#6
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def main():
    global STATUS
    global WORKING

    init()

    while True:
        now = rtc.datetime()

        check(now)

        if STATUS and WORKING == False:
            WORKING = True
            does(urtc.tuple2seconds(now))

        elif WORKING and STATUS == False:
            WORKING = False
            stop(urtc.tuple2seconds(now))

        display.displaytem(now, WORKING)

        utime.sleep(1.0)
    async def run_logger(self):
        timestamp_local = gmt_to_pst(urtc.tuple2seconds(ds3231.datetime()))
        ld = urtc.seconds2tuple(timestamp_local)
        # does log file already exist?  Yes->open, append  No->create, write header
        if self.fn == None:
            self.fn = '/sd/meas-{}-{}-{}-{}-{}-{}.csv'.format(ld.year, ld.month, ld.day, ld.hour, ld.minute, ld.second)
            s = open(self.fn, 'w+')
            numwrite = s.write('utc,pm25,o3,o3_vgas,o3_vref,no2,no2_vgas,no2_vref,tdegc,rh,dba_avg,dba_max,'
                               'vusb_avg,vusb_min,vbat_avg,vbat_min\n')
            log.info('SD:created new file')
        else:
            s = open(self.fn, 'a+')
            log.info('SD:opened existing file')

        await asyncio.sleep(0)
        # write sensor data to the SD Card in CSV format
        numwrite = s.write('{}, {},' 
                           '{:.2f},{:.2f},{:.2f},' 
                           '{:.2f},{:.2f},{:.2f},'
                           '{:.1f},{:.1f},'
                           '{:.1f},{:.1f},'
                           '{:.2f},{:.2f},{:.2f},{:.2f}\n'.format(
                            timestamp_unix, 
                            repo.get('pm25').current,
                            repo.get('o3').current,
                            repo.get('o3_vgas').current,
                            repo.get('o3_vref').current,
                            repo.get('no2').current,
                            repo.get('no2_vgas').current,
                            repo.get('no2_vref').current,
                            repo.get('tdegc').current,
                            repo.get('rh').current,
                            repo.get('dba').avg,
                            repo.get('dba').max,
                            repo.get('vusb').avg,
                            repo.get('vusb').min,
                            repo.get('vbat').avg,
                            repo.get('vbat').min))
        log.info('SD:wrote log and closed')
        s.close()
        await asyncio.sleep(0)
示例#8
0
def day_of_month(days_in_future=0):
    """Get the day of the month."""
    secs = urtc.tuple2seconds(datetime())
    secs += days_in_future * _SECS_IN_DAY
    future = urtc.seconds2tuple(int(secs))
    return future[2]
    async def run_mic(self):
        # dmacount range:  2 to 128 incl
        # dmalen range:   8 to 1024 incl
        
        bck_pin = Pin(13)
        ws_pin = Pin(12)
        sdin_pin = Pin(14)

        audio=I2S(I2S.NUM0,
            bck=bck_pin,
            ws=ws_pin,
            sdin=sdin_pin,
            mode=I2S.MASTER_RX,
            samplerate=SAMPLES_PER_SECOND,
            dataformat=I2S.B32,
            channelformat=I2S.RIGHT_LEFT,
            standard=I2S.PHILIPS,
            dmacount=64,
            dmalen=256)
        timer_ms = ms_timer.MillisecTimer()
        
        noise = dba.DBA(samples=10000, resolution=dba.B16, 
             coeffa=(1.0, -2.3604841 ,  0.83692802,  1.54849677, -0.96903429, -0.25092355,  0.1950274),
             coeffb=(0.61367941, -1.22735882, -0.61367941,  2.45471764, -0.61367941, -1.22735882,  0.61367941))
                
        logmic.info('opening WAV file')
        local_timestamp = gmt_to_pst(urtc.tuple2seconds(ds3231.datetime()))
        ld = urtc.seconds2tuple(local_timestamp)
        fn = '/sd/mic-{}-{}-{}-{}-{}-{}.wav'.format(ld.year, ld.month, ld.day, ld.hour, ld.minute, ld.second)
        m=open(fn,'wb')
        wav_header = wavheader.gen_wav_header(SAMPLES_PER_SECOND, BITS_PER_SAMPLE, 1,
                            SAMPLES_PER_SECOND * RECORD_TIME_IN_SECONDS)
        logmic.debug('write WAV header')
        m.write(wav_header)
        numread = 0
        numwrite = 0
        bytes_in_dma_memory = 0
        overrun_count = 0
        sdwrite_over_100ms = 0
        sdwrite_50_to_100ms = 0
        sdwrite_count = 0
        dma_capacity = 64 * 256 * NUM_BYTES_RX  # dmacount*dmalen*8
        samples = bytearray(NUM_BYTES_IN_SAMPLE_BLOCK)
        sd_sector = bytearray(NUM_BYTES_IN_SDCARD_SECTOR)
        bytes_remaining_to_rx = NUM_SAMPLE_BYTES_TO_RX
        mic_file_open = True
        logmic.info('recording start')
        while True:
            try:
                start_ticks_us = utime.ticks_us()

                # read samples from microphone
                numread = audio.readinto(samples, timeout=0)
                bytes_remaining_to_rx -= numread
                
                if numread == 0:
                    # no samples available in DMA memory
                    # allow lower priority coroutines to run
                    await timer_ms(2)
                    bytes_in_dma_memory = 0
                else:
                    bytes_in_dma_memory -= numread
                    
                    # copy sample from left channel and reduce sample resolution to 16 bits
                    num_copied = i2stools.copy(bufin=samples, bufout=sd_sector, channel=i2stools.LEFT, format=i2stools.B16)
                    
                    # feed samples to dBA calculation
                    res = noise.calc(sd_sector)
                    if (res != None):
                        # dba result ready
                        repo.add('dba', res)
                        logmic.debug("noise = {:.1f} dB(A)".format(repo.get('dba').current))
                
                    # write samples to SD Card
                    if bytes_remaining_to_rx > 0:
                        start_sd_write = utime.ticks_us()
                        numwrite = m.write(sd_sector)
                        sd_write_time = utime.ticks_diff(utime.ticks_us(), start_sd_write)
                        sdwrite_count += 1
                        
                        logmic.debug('sd_write_time = %d', sd_write_time)
                        if (sd_write_time) > 100*1000:  # 100ms
                            sdwrite_over_100ms += 1
                        elif (sd_write_time) > 50*1000:  # 50ms
                            sdwrite_50_to_100ms += 1
                            
                            end_ticks_us = utime.ticks_us()  
                            bytes_in_dma_memory += (utime.ticks_diff(end_ticks_us, start_ticks_us) * (SAMPLES_PER_SECOND * NUM_BYTES_RX)) // 1000000
                            if bytes_in_dma_memory > dma_capacity:
                                overrun_count += 1
                                logmic.debug('Mic:  DMA overrun!, count= ', overrun_count)
                    elif mic_file_open == True:
                        m.close()
                        logmic.info('recording done')
                        logmic.info('Stats:\n  overrun_count: {}\n'
                                    '  sdwrite_50_to_100ms: {}\n' 
                                    '  sdwrite_over_100ms: {}\n' 
                                    '  sdwrite_count:  {}\n'.format(overrun_count, 
                                                                     sdwrite_50_to_100ms, 
                                                                     sdwrite_over_100ms, 
                                                                     sdwrite_count))
                        mic_file_open = False
                        
                    # fft TODO  coming soon .... 
                    '''
                    num_samples = 256
                    y = bytearray(num_samples * 4) # (sample / 2) freq bins, 2 floats per bin (real/imag)
                    fft.fft(sd_sector, y)
                    
                    print('fft results')
                    print(ustruct.unpack('>fffff', y)[0]) 
                    print(ustruct.unpack('>fffff', y)[1]) 
                    print(ustruct.unpack('>fffff', y)[2]) 
                    print(ustruct.unpack('>fffff', y)[3]) 
                    print(ustruct.unpack('>fffff', y)[4]) 
                    '''
            except Exception as e:
                m.close()
                audio.deinit()