Ejemplo n.º 1
0
    def __init__(self, args=[]):
        [rocA, rocB, rocC, rocD, smaA, smaB, smaC, smaD, smaSignal] = args

        self._rocA = ROC([rocA])
        self._rocB = ROC([rocB])
        self._rocC = ROC([rocC])
        self._rocD = ROC([rocD])

        self._smaA = SMA([smaA])
        self._smaB = SMA([smaB])
        self._smaC = SMA([smaC])
        self._smaD = SMA([smaD])

        self._smaSignal = SMA([smaSignal])

        super().__init__({
            'args':
            args,
            'id':
            'kst',
            'name':
            'KST(%f, %f, %f, %f, %f, %f, %f, %f, %f)' %
            (rocA, rocB, rocC, rocD, smaA, smaB, smaC, smaD, smaSignal),
            'seed_period':
            max([
                rocA + smaA, rocB + smaB, rocC + smaC, rocD + smaD, smaSignal
            ])
        })
Ejemplo n.º 2
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    def __init__(self,
                 lengthRSI,
                 lengthStochastic,
                 smoothStoch,
                 smoothSignal,
                 cache_size=None):
        self._buffer = []
        self._l = lengthStochastic
        self._rsi = RSI(lengthRSI, cache_size)
        self._smaStoch = SMA(smoothStoch, cache_size)
        self._smaSignal = SMA(smoothSignal, cache_size)

        super().__init__({
            'args': [
                lengthRSI, lengthStochastic, smoothStoch, smoothSignal,
                cache_size
            ],
            'id':
            'stochrsi',
            'name':
            'Stoch RSI(%f, %f, %f, %f)' %
            (lengthRSI, lengthStochastic, smoothStoch, smoothSignal),
            'seed_period':
            lengthRSI + lengthStochastic + smoothStoch,
            'cache_size':
            cache_size
        })
Ejemplo n.º 3
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class DPO(Indicator):
    def __init__(self, period, cache_size=None):
        self._pricePeriod = floor(period / 2) + 1
        self._sma = SMA(period, cache_size)

        super().__init__({
            'args': [period, cache_size],
            'id': 'dpo',
            'name': 'DPO(%f)' % period,
            'seed_period': period,
            'cache_size': cache_size
        })

    def reset(self):
        super().reset()
        self._sma.reset()

    def update(self, v):
        self._sma.update(v)
        super().update(v - self._sma.prev(self._pricePeriod - 1))
        return self.v()

    def add(self, v):
        self._sma.add(v)

        if self._sma.l() < self._pricePeriod + 1:
            return

        super().add(v - self._sma.prev(self._pricePeriod))
        return self.v()
class DPO(Indicator):
  def __init__(self, args = []):
    [ period ] = args

    self._pricePeriod = floor(period / 2) + 1
    self._sma = SMA([period])

    super().__init__({
      'args': args,
      'id': 'dpo',
      'name': 'DPO(%f)' % period,
      'seed_period': period
    })
  
  def reset(self):
    super().reset()
    self._sma.reset()

  def update(self, v):
    self._sma.update(v)
    super().update(v - self._sma.prev(self._pricePeriod - 1))
    return self.v()

  def add(self, v):
    self._sma.add(v)

    if self._sma.l() < self._pricePeriod + 1:
      return

    super().add(v - self._sma.prev(self._pricePeriod))
    return self.v()
Ejemplo n.º 5
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    def __init__(self, period, cache_size=None):
        self._pricePeriod = floor(period / 2) + 1
        self._sma = SMA(period, cache_size)

        super().__init__({
            'args': [period, cache_size],
            'id': 'dpo',
            'name': 'DPO(%f)' % period,
            'seed_period': period,
            'cache_size': cache_size
        })
Ejemplo n.º 6
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    def __init__(self, length, percent, cache_size=None):
        self._sma = SMA(length, cache_size)
        self._p = percent / 100

        super().__init__({
            'args': [length, percent, cache_size],
            'id': 'env',
            'name': 'Env(%f, %f)' % (length, percent),
            'seed_period': length,
            'cache_size': cache_size
        })
Ejemplo n.º 7
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  def __init__(self, args = []):
    [ length, percent ] = args

    self._sma = SMA([length])
    self._p = percent / 100

    super().__init__({
      'args': args,
      'id': 'env',
      'name': 'Env(%f, %f)' % (length, percent),
      'seed_period': length,
    })
    def __init__(self, args=[]):
        self._smaShort = SMA([5])
        self._smaLong = SMA([34])

        super().__init__({
            'args': args,
            'id': 'ao',
            'name': 'AO',
            'seed_period': None,
            'data_type': 'candle',
            'data_key': '*'
        })
  def __init__(self, args = []):
    [ period ] = args

    self._pricePeriod = floor(period / 2) + 1
    self._sma = SMA([period])

    super().__init__({
      'args': args,
      'id': 'dpo',
      'name': 'DPO(%f)' % period,
      'seed_period': period
    })
Ejemplo n.º 10
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    def __init__(self, period, mul, cache_size=None):
        self._p = period
        self._m = mul
        self._sma = SMA(period, cache_size)
        self._stddev = StdDeviation([period])

        super().__init__({
            'args': [period, mul, cache_size],
            'id': 'bbands',
            'name': 'BBANDS(%f, %f)' % (period, mul),
            'seed_period': period
        })
    def __init__(self, period, cache_size=None):
        self._smaShort = SMA(period, cache_size)
        self._smaLong = SMA(period, cache_size)

        super().__init__({
            'args': [period, cache_size],
            'id': 'ao',
            'name': 'AO',
            'seed_period': None,
            'data_type': 'candle',
            'data_key': '*',
            'cache_size': cache_size
        })
Ejemplo n.º 12
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    def __init__(self, period, smoothK, smoothD, cache_size=None):
        self._p = period
        self._buffer = []
        self._kSMA = SMA(smoothK, cache_size)
        self._dSMA = SMA(smoothD, cache_size)

        super().__init__({
            'args': [period, smoothK, smoothD, cache_size],
            'id': 'stoch',
            'name': 'Stoch(%f)' % (period),
            'seed_period': period,
            'data_type': 'candle',
            'data_key': '*'
        })
Ejemplo n.º 13
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    def __init__(self, period, cache_size=None):
        self._numeratorSMA = SMA(period, cache_size)
        self._denominatorSMA = SMA(period, cache_size)
        self._buffer = []

        super().__init__({
            'args': [period, cache_size],
            'id': 'rvgi',
            'name': 'RVGI(%f)' % period,
            'seed_period': period,
            'data_type': 'candle',
            'data_key': '*',
            'cache_size': cache_size
        })
Ejemplo n.º 14
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    def __init__(self, args=[]):
        [period, mul] = args

        self._p = period
        self._m = mul
        self._sma = SMA([period])
        self._stddev = StdDeviation([period])

        super().__init__({
            'args': args,
            'id': 'bbands',
            'name': 'BBANDS(%f, %f)' % (period, mul),
            'seed_period': period
        })
Ejemplo n.º 15
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  def __init__(self, divisor, length, cache_size=None):
    self._d = divisor
    self._sma = SMA(length, cache_size)
    self._lastCandle = None

    super().__init__({
      'args': [divisor, length, cache_size],
      'id': 'eom',
      'name': 'EOM(%f, %f)' % (divisor, length),
      'seed_period': length,
      'data_type': 'candle',
      'data_key': '*',
      'cache_size': cache_size
    })
Ejemplo n.º 16
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    def __init__(self, args=[]):
        [divisor, length] = args

        self._d = divisor
        self._sma = SMA([length])
        self._lastCandle = None

        super().__init__({
            'args': args,
            'id': 'eom',
            'name': 'EOM(%f, %f)' % (divisor, length),
            'seed_period': length,
            'data_type': 'candle',
            'data_key': '*'
        })
  def __init__(self, args = []):
    [ period ] = args

    self._numeratorSMA = SMA([period])
    self._denominatorSMA = SMA([period])
    self._buffer = []

    super().__init__({
      'args': args,
      'id': 'rvgi',
      'name': 'RVGI(%f)' % period,
      'seed_period': period,
      'data_type': 'candle',
      'data_key': '*'
    })
Ejemplo n.º 18
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    def __init__(self, args=[]):
        [period, smoothK, smoothD] = args

        self._p = period
        self._buffer = []
        self._kSMA = SMA([smoothK])
        self._dSMA = SMA([smoothD])

        super().__init__({
            'args': args,
            'id': 'stoch',
            'name': 'Stoch(%f)' % (period),
            'seed_period': period,
            'data_type': 'candle',
            'data_key': '*'
        })
Ejemplo n.º 19
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    def __init__(self, args=[]):
        [lengthRSI, lengthStochastic, smoothStoch, smoothSignal] = args

        self._buffer = []
        self._l = lengthStochastic
        self._rsi = RSI([lengthRSI])
        self._smaStoch = SMA([smoothStoch])
        self._smaSignal = SMA([smoothSignal])

        super().__init__({
            'args':
            args,
            'id':
            'stochrsi',
            'name':
            'Stoch RSI(%f, %f, %f, %f)' %
            (lengthRSI, lengthStochastic, smoothStoch, smoothSignal),
            'seed_period':
            lengthRSI + lengthStochastic + smoothStoch
        })
Ejemplo n.º 20
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    def __init__(self,
                 rocA,
                 rocB,
                 rocC,
                 rocD,
                 smaA,
                 smaB,
                 smaC,
                 smaD,
                 smaSignal,
                 cache_size=None):

        self._rocA = ROC(rocA, cache_size)
        self._rocB = ROC(rocB, cache_size)
        self._rocC = ROC(rocC, cache_size)
        self._rocD = ROC(rocD, cache_size)

        self._smaA = SMA(smaA, cache_size)
        self._smaB = SMA(smaB, cache_size)
        self._smaC = SMA(smaC, cache_size)
        self._smaD = SMA(smaD, cache_size)

        self._smaSignal = SMA([smaSignal])

        super().__init__({
            'args': [
                rocA, rocB, rocC, rocD, smaA, smaB, smaC, smaD, smaSignal,
                cache_size
            ],
            'id':
            'kst',
            'name':
            'KST(%f, %f, %f, %f, %f, %f, %f, %f, %f)' %
            (rocA, rocB, rocC, rocD, smaA, smaB, smaC, smaD, smaSignal),
            'seed_period':
            max([
                rocA + smaA, rocB + smaB, rocC + smaC, rocD + smaD, smaSignal
            ]),
            'cache_size':
            cache_size
        })
Ejemplo n.º 21
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class BollingerBands(Indicator):
    def __init__(self, args=[]):
        [period, mul] = args

        self._p = period
        self._m = mul
        self._sma = SMA([period])
        self._stddev = StdDeviation([period])

        super().__init__({
            'args': args,
            'id': 'bbands',
            'name': 'BBANDS(%f, %f)' % (period, mul),
            'seed_period': period
        })

    def reset(self):
        super().reset()
        self._sma.reset()
        self._stddev.reset()

    def update(self, v):
        self._sma.update(v)
        self._stddev.update(v)

        middle = self._sma.v()
        stddev = self._stddev.v()

        super().update({
            'top': middle + (self._m * stddev),
            'middle': middle,
            'bottom': middle - (self._m * stddev)
        })

        return self.v()

    def add(self, v):
        self._sma.add(v)
        self._stddev.add(v)

        middle = self._sma.v()
        stddev = self._stddev.v()

        if middle is not None and stddev is not None:
            super().add({
                'top': middle + (self._m * stddev),
                'middle': middle,
                'bottom': middle - (self._m * stddev)
            })

        return self.v()
Ejemplo n.º 22
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class Envelope(Indicator):
  def __init__(self, args = []):
    [ length, percent ] = args

    self._sma = SMA([length])
    self._p = percent / 100

    super().__init__({
      'args': args,
      'id': 'env',
      'name': 'Env(%f, %f)' % (length, percent),
      'seed_period': length,
    })
  
  def reset(self):
    super().reset()
    self._sma.reset()

  def update(self, v):
    self._sma.update(v)
    basis = self._sma.v()

    if not isfinite(basis):
      return
    
    delta = basis * self._p
    super().update({
      'upper': basis + delta,
      'basis': basis,
      'lower': basis - delta
    })

    return self.v()

  def add(self, v):
    self._sma.add(v)
    basis = self._sma.v()

    if not isfinite(basis):
      return
    
    delta = basis * self._p
    super().add({
      'upper': basis + delta,
      'basis': basis,
      'lower': basis - delta
    })

    return self.v()
Ejemplo n.º 23
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class StochasticRSI(Indicator):
    def __init__(self, args=[]):
        [lengthRSI, lengthStochastic, smoothStoch, smoothSignal] = args

        self._buffer = []
        self._l = lengthStochastic
        self._rsi = RSI([lengthRSI])
        self._smaStoch = SMA([smoothStoch])
        self._smaSignal = SMA([smoothSignal])

        super().__init__({
            'args':
            args,
            'id':
            'stochrsi',
            'name':
            'Stoch RSI(%f, %f, %f, %f)' %
            (lengthRSI, lengthStochastic, smoothStoch, smoothSignal),
            'seed_period':
            lengthRSI + lengthStochastic + smoothStoch
        })

    def reset(self):
        super().reset()
        self._buffer = []
        self._rsi.reset()
        self._smaStoch.reset()
        self._smaSignal.reset()

    def update(self, v):
        self._rsi.update(v)
        rsi = self._rsi.v()

        if not isfinite(rsi):
            return self.v()

        if len(self._buffer) == 0:
            self._buffer.append(rsi)
        else:
            self._buffer[-1] = rsi

        if len(self._buffer) < self._l:
            return self.v()

        low = min(self._buffer)
        high = max(self._buffer)
        stoch = 1 if high == low else ((rsi - low) / (high - low))

        self._smaStoch.update(stoch * 100)
        smaStoch = self._smaStoch.v()

        if not isfinite(smaStoch):
            return self.v()

        self._smaSignal.update(smaStoch)
        smaSignal = self._smaSignal.v()

        if isfinite(smaSignal):
            super().update({'v': smaStoch, 'signal': smaSignal})

        return self.v()

    def add(self, v):
        self._rsi.add(v)
        rsi = self._rsi.v()

        if not isfinite(rsi):
            return self.v()

        self._buffer.append(rsi)

        if len(self._buffer) > self._l:
            del self._buffer[0]
        elif len(self._buffer) < self._l:
            return self.v()

        low = min(self._buffer)
        high = max(self._buffer)
        stoch = 1 if high == low else ((rsi - low) / (high - low))

        self._smaStoch.add(stoch * 100)
        smaStoch = self._smaStoch.v()

        if not isfinite(smaStoch):
            return self.v()

        self._smaSignal.add(smaStoch)
        smaSignal = self._smaSignal.v()

        if isfinite(smaSignal):
            super().add({'v': smaStoch, 'signal': smaSignal})

        return self.v()
Ejemplo n.º 24
0
class Stochastic(Indicator):
    def __init__(self, args=[]):
        [period, smoothK, smoothD] = args

        self._p = period
        self._buffer = []
        self._kSMA = SMA([smoothK])
        self._dSMA = SMA([smoothD])

        super().__init__({
            'args': args,
            'id': 'stoch',
            'name': 'Stoch(%f)' % (period),
            'seed_period': period,
            'data_type': 'candle',
            'data_key': '*'
        })

    def reset(self):
        super().reset()
        self._buffer = []
        self._kSMA.reset()
        self._dSMA.reset()

    def update(self, candle):
        if len(self._buffer) == 0:
            self._buffer.append(candle)
        else:
            self._buffer[-1] = candle

        if len(self._buffer) < self._p:
            return self.v()

        close = candle['close']
        lowestLow = min(map(lambda c: c['low'], self._buffer))
        highestHigh = max(map(lambda c: c['high'], self._buffer))
        k = 100 * ((close - lowestLow) / (highestHigh - lowestLow))

        self._kSMA.update(k)
        self._dSMA.update(self._kSMA.v())

        return super().update({'k': self._kSMA.v(), 'd': self._dSMA.v()})

    def add(self, candle):
        self._buffer.append(candle)

        if len(self._buffer) > self._p:
            del self._buffer[0]
        elif len(self._buffer) < self._p:
            return self.v()

        close = candle['close']
        lowestLow = min(map(lambda c: c['low'], self._buffer))
        highestHigh = max(map(lambda c: c['high'], self._buffer))
        k = 100 * ((close - lowestLow) / (highestHigh - lowestLow))

        self._kSMA.add(k)
        self._dSMA.add(self._kSMA.v())

        return super().add({'k': self._kSMA.v(), 'd': self._dSMA.v()})
Ejemplo n.º 25
0
class KST(Indicator):
    def __init__(self,
                 rocA,
                 rocB,
                 rocC,
                 rocD,
                 smaA,
                 smaB,
                 smaC,
                 smaD,
                 smaSignal,
                 cache_size=None):

        self._rocA = ROC(rocA, cache_size)
        self._rocB = ROC(rocB, cache_size)
        self._rocC = ROC(rocC, cache_size)
        self._rocD = ROC(rocD, cache_size)

        self._smaA = SMA(smaA, cache_size)
        self._smaB = SMA(smaB, cache_size)
        self._smaC = SMA(smaC, cache_size)
        self._smaD = SMA(smaD, cache_size)

        self._smaSignal = SMA([smaSignal])

        super().__init__({
            'args': [
                rocA, rocB, rocC, rocD, smaA, smaB, smaC, smaD, smaSignal,
                cache_size
            ],
            'id':
            'kst',
            'name':
            'KST(%f, %f, %f, %f, %f, %f, %f, %f, %f)' %
            (rocA, rocB, rocC, rocD, smaA, smaB, smaC, smaD, smaSignal),
            'seed_period':
            max([
                rocA + smaA, rocB + smaB, rocC + smaC, rocD + smaD, smaSignal
            ]),
            'cache_size':
            cache_size
        })

    def reset(self):
        super().reset()

        self._rocA.reset()
        self._rocB.reset()
        self._rocC.reset()
        self._rocD.reset()

        self._smaA.reset()
        self._smaB.reset()
        self._smaC.reset()
        self._smaD.reset()

        self._smaSignal.reset()

    def update(self, v):
        self._rocA.update(v)
        self._rocB.update(v)
        self._rocC.update(v)
        self._rocD.update(v)

        if self._rocA.ready():
            self._smaA.update(self._rocA.v())

        if self._rocB.ready():
            self._smaB.update(self._rocB.v())

        if self._rocC.ready():
            self._smaC.update(self._rocC.v())

        if self._rocD.ready():
            self._smaD.update(self._rocD.v())

        if not self._smaA.ready() or not self._smaB.ready(
        ) or not self._smaC.ready() or not self._smaD.ready():
            return

        kst = self._smaA.v() + (self._smaB.v() * 2) + (self._smaC.v() * 3) + (
            self._smaD.v() * 4)
        self._smaSignal.update(kst)

        super().update({'v': kst, 'signal': self._smaSignal.v()})

        return self.v()

    def add(self, v):
        self._rocA.add(v)
        self._rocB.add(v)
        self._rocC.add(v)
        self._rocD.add(v)

        if self._rocA.ready():
            self._smaA.add(self._rocA.v())

        if self._rocB.ready():
            self._smaB.add(self._rocB.v())

        if self._rocC.ready():
            self._smaC.add(self._rocC.v())

        if self._rocD.ready():
            self._smaD.add(self._rocD.v())

        if not self._smaA.ready() or not self._smaB.ready(
        ) or not self._smaC.ready() or not self._smaD.ready():
            return

        kst = self._smaA.v() + (self._smaB.v() * 2) + (self._smaC.v() * 3) + (
            self._smaD.v() * 4)
        self._smaSignal.add(kst)

        super().add({'v': kst, 'signal': self._smaSignal.v()})

        return self.v()
Ejemplo n.º 26
0
class RVGI(Indicator):
    def __init__(self, period, cache_size=None):
        self._numeratorSMA = SMA(period, cache_size)
        self._denominatorSMA = SMA(period, cache_size)
        self._buffer = []

        super().__init__({
            'args': [period, cache_size],
            'id': 'rvgi',
            'name': 'RVGI(%f)' % period,
            'seed_period': period,
            'data_type': 'candle',
            'data_key': '*',
            'cache_size': cache_size
        })

    def reset(self):
        super().reset()
        self._numeratorSMA.reset()
        self._denominatorSMA.reset()
        self._buffer = []

    def calc(candle, buffer):
        barA = candle['close'] - candle['open']
        barB = buffer[2]['close'] - buffer[2]['open']
        barC = buffer[1]['close'] - buffer[1]['open']
        barD = buffer[0]['close'] - buffer[0]['open']
        num = (barA + (barB * 2) + (barC * 2) + barD) / 6

        e = candle['high'] - candle['low']
        f = buffer[2]['high'] - buffer[2]['low']
        g = buffer[1]['high'] - buffer[1]['low']
        h = buffer[0]['high'] - buffer[0]['low']
        den = (e + (f * 2) + (g * 2) + h) / 6

        return [num, den]

    def update(self, candle):
        if len(self._buffer) == 0:
            self._buffer.append(candle)
        else:
            self._buffer[-1] = candle

        if len(self._buffer) < 4:
            return super().update(0)

        [num, den] = RVGI.calc(candle, self._buffer)

        self._numeratorSMA.update(num)
        self._denominatorSMA.update(den)

        rvi = self._numeratorSMA.v() / self._denominatorSMA.v()
        signal = 0

        if self.l() >= 3:
            i = self.v()['rvi']
            j = self.prev(1)['rvi']
            k = self.prev(2)['rvi']
            signal = (rvi + (i * 2) + (j * 2) + k) / 6

        super().update({'rvi': rvi, 'signal': signal})

    def add(self, candle):
        self._buffer.append(candle)

        if len(self._buffer) > 4:
            del self._buffer[0]
        elif len(self._buffer) < 4:
            return self.v()

        [num, den] = RVGI.calc(candle, self._buffer)

        self._numeratorSMA.add(num)
        self._denominatorSMA.add(den)

        rvi = self._numeratorSMA.v() / self._denominatorSMA.v()
        signal = 0

        if self.l() >= 4:
            i = self.prev(1)['rvi']
            j = self.prev(2)['rvi']
            k = self.prev(3)['rvi']
            signal = (rvi + (i * 2) + (j * 2) + k) / 6

        super().add({'rvi': rvi, 'signal': signal})
class AO(Indicator):
    def __init__(self, args=[]):
        self._smaShort = SMA([5])
        self._smaLong = SMA([34])

        super().__init__({
            'args': args,
            'id': 'ao',
            'name': 'AO',
            'seed_period': None,
            'data_type': 'candle',
            'data_key': '*'
        })

    def reset(self):
        super().reset()

        self._smaShort.reset()
        self._smaLong.reset()

    def update(self, candle):
        v = (candle['high'] + candle['low']) / 2

        self._smaShort.update(v)
        self._smaLong.update(v)

        super().update(self._smaShort.v() - self._smaLong.v())
        return self.v()

    def add(self, candle):
        v = (candle['high'] + candle['low']) / 2

        self._smaShort.add(v)
        self._smaLong.add(v)

        super().add(self._smaShort.v() - self._smaLong.v())
        return self.v()
Ejemplo n.º 28
0
class EOM(Indicator):
  def __init__(self, divisor, length, cache_size=None):
    self._d = divisor
    self._sma = SMA(length, cache_size)
    self._lastCandle = None

    super().__init__({
      'args': [divisor, length, cache_size],
      'id': 'eom',
      'name': 'EOM(%f, %f)' % (divisor, length),
      'seed_period': length,
      'data_type': 'candle',
      'data_key': '*',
      'cache_size': cache_size
    })

  def reset(self):
    super().reset()
    self._lastCandle = None
    self._sma.reset()

  def calcEOM(candle, lastCandle, divisor):
    high = candle['high']
    low = candle['low']
    vol = candle['vol']
    lastHigh = lastCandle['high']
    lastLow = lastCandle['low']

    moved = ((high + low) / 2) - ((lastHigh + lastLow) / 2)

    if high == low:
      boxRatio = 1
    else:
      boxRatio = (vol / divisor) / (high - low)

    return moved / boxRatio
 
  def update(self, candle):
    if self._lastCandle == None:
      return
    
    eom = EOM.calcEOM(candle, self._lastCandle, self._d)
    self._sma.update(eom)

    v = self._sma.v()

    if isfinite(v):
      super().update(v)
    return self.v()

  def add(self, candle):
    if self._lastCandle == None:
      self._lastCandle = candle
      return
    
    eom = EOM.calcEOM(candle, self._lastCandle, self._d)
    self._sma.add(eom)

    v = self._sma.v()

    if isfinite(v):
      super().add(v)
    
    self._lastCandle = candle
    return self.v()