current reading test
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@ -18,6 +18,13 @@
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# EXAMPLE I2C BOARD
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# [board1]
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# type = i2c-out
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# address = 20
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# address = 0x27
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# channels = 8
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# bus = 1
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# bus = 0
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# EXAMPLE I2C CURRENT BOARD
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# [board2]
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# type = i2c-current
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# address = 0x48
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# channels = 4
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# bus = 0
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@ -20,6 +20,8 @@ startpower = 1
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# [outlet3]
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# board=1
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# channel=1
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# currentboard=2
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# currentboardchannel=1
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# description = MailServer
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# [outlet4]
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153
openpdud
153
openpdud
@ -12,8 +12,7 @@ import json as JSON
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from bottle import route, run, template
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import smbus2
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#import math
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#from numpy import mean, sqrt, square
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from numpy import mean, sqrt, square
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@ -81,7 +80,16 @@ def index(outlet):
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out = theOutlet.getpower()
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return JSON.dumps({'powerstatus':out,'outlet':outlet})
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@route('/outlet/<outlet>/current')
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def index(outlet):
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outlet=int(outlet)
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o = [o for o in _outlets if o.outletnum==outlet]
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if len(o) != 1:
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msg = 'wrong outlet number: %s' % str(outlet)
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return JSON.dumps({'message':msg})
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theOutlet = o[0]
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out = theOutlet.getcurrent()
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return JSON.dumps({'current':out,'outlet':outlet})
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@ -247,6 +255,8 @@ class Outlet(object):
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self.channel = int(channel)
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self.description = 'Outlet # %s' % self.outletnum
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self.startpower = startpower
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self.currentboard = None
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self.currentboardchannel = None
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def init(self):
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self.setpower(self.startpower)
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@ -262,6 +272,17 @@ class Outlet(object):
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def getpower(self):
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return self.board.getpower(self.channel)
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def getcurrent(self):
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if self.currentboard is None:
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return 0
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return self.currentboard.readcurrent(self.currentboardchannel)
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def setcurrentboard(self, boardnum, channel):
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b = [b for b in _boards if b.boardnum==int(boardnum)]
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self.currentboard = b[0]
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self.currentboardchannel = channel
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def toJSON(self):
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status = self.board.getpower(self.channel)
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return {'outlet':self.outletnum,'description':self.description,'board':self.board.boardnum,'channel':self.channel,'powerstatus':status}
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@ -292,14 +313,78 @@ class BoardI2Ccurrent(object):
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raise OSError('Cannot access I2C. Please ensure I2C is enabled')
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self._bus = smbus2.SMBus(self.bus)
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self.my_zero = 19920
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self.num_samples = 100
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def toJSON(self):
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return {'boardnum':self.boardnum,'type':'i2c-current','channels':self.channels,'address':self.address}
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def _readvalue(self, channel):
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# 0 = no effect / 1 = start a single conversion
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cfg_OS = 1
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# multiplexer configurations:
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cfg_chan = 0b100
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if channel == 0:
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# AIN0 -> GND
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cfg_chan = 0b100
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elif channel == 1:
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# AIN1 -> GND
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cfg_chan = 0b101
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elif channel == 2:
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# AIN2 -> GND
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cfg_chan = 0b110
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elif channel == 3:
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# AIN3 -> GND
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cfg_chan = 0b111
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# unused multiplexer configurations:
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# 0b000 AIN0 -> AIN1
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# 0b001 AIN0 -> AIN3
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# 0b010 AIN1 -> AIN3
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# 0b011 AIN2 -> AIN3
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# gain amplifier configuration
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# 000 = +- 6.144 V
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# 001 = +- 4,096 V
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# 010 = +- 2,048 V
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# 011 = +- 1,024 V
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# 100 = +- 0,512 V
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# 101 = +- 0,256 V
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# 110 = +- 0,256 V
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# 111 = +- 0,256 V
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cfg_amplifier = 0b000
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# 0 = continuous conversion / 1 = single-shot or power-down
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cfg_mode = 0
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# data rate
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# 000 = 128 sps
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# 001 = 250 sps
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# 010 = 490 sps
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# 011 = 920 sps
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# 100 = 1600 sps
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# 101 = 2400 sps
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# 110 = 3300 sps
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# 111 = 3300 sps
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cfg_sps = 0b110
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# 0 = traditional comparator / 1 = window comparator
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cfg_comp = 0
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# 0 = comparator active low / 1 = comparator active high
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cfg_comp_pol = 0
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# 0 = comparator non-latching / 1 = comparator latching
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cfg_comp_latch = 0
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# comparator queue and disable
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# 00 = assert after one conversion
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# 01 = assert after two conversions
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# 10 = assert after three conversions
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# 11 = disable comparator
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cfg_comp_queue = 0b11
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config = cfg_OS << 15 | cfg_chan << 12 | cfg_amplifier << 9 | cfg_mode << 8 | cfg_sps << 5 | cfg_comp << 4 | cfg_comp_pol << 3 | cfg_comp_latch << 2 | cfg_comp_queue
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def _readvalue():
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config = 0b1110000011000011
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self._bus.write_word_data(self.address, 0x01, config)
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while True:
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d1 = self._bus.read_word_data(self.address, 0x01)
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@ -311,35 +396,13 @@ class BoardI2Ccurrent(object):
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val = msb << 8 | lsb >> 8
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return (val - self.my_zero) >> 4
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def setpower(self, channel, power):
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old_data = data = self.getdata()
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mask = 1 << channel
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data &= ~mask
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if self.inverted:
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power = not power
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if power:
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data |= mask
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if old_data != data:
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self.next_refresh = 0
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return self._bus.write_byte_data(self.address, 0x09,data)
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def getpower(self, channel):
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data = self.getdata()
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d = ( data >> channel ) & 1
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c = 0 if self.inverted else 1
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return d == c
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def getdata(self):
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now = time.time()
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if now > self.next_refresh:
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self.data = self._bus.read_byte_data(self.address, 0x0A)
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self.next_refresh = now + self.lifetime_sec
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return self.data
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def init(self):
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return self._bus.write_byte_data(self.address, 0x00, 0x00)
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def readcurrent(self, channel):
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samples = []
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for i in range(1,self.num_samples):
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v = self._readvalue(channel)
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samples.append(v)
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rms = sqrt(mean(square(samples)))
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return rms
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@ -366,6 +429,11 @@ for s in boardsConfigParser.sections():
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bus = boardsConfigParser.get(s, 'bus')
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b = BoardI2COut(boardnum=num, channels=channels, address=address, bus=bus, inverted=inverted)
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_boards.append(b)
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elif bType=='i2c-current':
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address = boardsConfigParser.get(s, 'address')
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bus = boardsConfigParser.get(s, 'bus')
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b = BoardI2Ccurrent(boardnum=num, channels=channels, address=address, bus=bus)
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_boards.append(b)
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elif bType=='dummy':
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filename = boardsConfigParser.get(s, 'filename')
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b = BoardDummy(boardnum=num, channels=channels, filename=filename)
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@ -384,11 +452,24 @@ for s in outletsConfigParser.sections():
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startpower = int('0' + outletsConfigParser.get(s, 'startpower')) == 1
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o = Outlet(outletnum=num, boardnum=boardnum, channel=channel, startpower=startpower)
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o.description = description
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if outletsConfigParser.has_option(s,'currentboard') and outletsConfigParser.has_option(s,'currentboardchannel'):
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currentboard = outletsConfigParser.get(s, 'currentboard')
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currentboardchannel = int(outletsConfigParser.get(s, 'currentboardchannel'))
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o.setcurrentboard(currentboard, currentboardchannel)
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_outlets.append(o)
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run(host='0.0.0.0', port=5000)
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for sec in range(1,100):
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for outlet in range(0,4):
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o = [o for o in _outlets if o.outletnum==outlet]
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if len(o) != 1:
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msg = 'wrong outlet number: %s' % str(outlet)
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print JSON.dumps({'message':msg})
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theOutlet = o[0]
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out = theOutlet.getcurrent()
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print JSON.dumps({'current':out,'outlet':outlet})
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print "---"
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#run(host='0.0.0.0', port=5000)
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