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path: root/dmx/dmxeffects.py
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#!/usr/bin/env python
# vim: set expandtab ts=4:

import sys
import array, os, os.path
import colorsys
import traceback
from time import time, sleep
from math import sin, cos, pi
from ola.ClientWrapper import ClientWrapper

wrapper = None
loop_count = 0
TICK_INTERVAL = 10  # in ms
universenum = 2

enable = '--enable' in sys.argv[1:]

phase = 0.0
bpm = 120.0
tl = time()
beatsep = 0

def ctlpath(path):
    return os.path.join('/tmp', path)

# seamless restart
try:
    phase = float(open(ctlpath('.dmxeffects'), 'r').read())
except Exception, e:
    traceback.print_exc()

def DmxSent(state):
  if not state.Succeeded():
    wrapper.Stop()

#
# minimal abstraction... not really used much
#
class DMXTarget(object):
    pass

class DMXLEDPAR(DMXTarget):

    # NB: relative color adjustments hardcoded here!
    def __init__(self, baseaddr, mult = 1.0, max_r = 255, max_g = 144, max_b = 180):
        self.baseaddr = baseaddr
        self.r = 0.
        self.g = 0.
        self.b = 0.
        self.max_r = max_r
        self.max_g = max_g
        self.max_b = max_b
        self.mult = mult

    def getdata(self):
        return (self.baseaddr, [0,
            max(min(int(self.r * self.mult * self.max_r), 255), 0),
            max(min(int(self.g * self.mult * self.max_g), 255), 0),
            max(min(int(self.b * self.mult * self.max_b), 255), 0),
            0])

class DMXUniverse(list):
    def __init__(self, uniid):
        list.__init__(self)
        self.uniid = uniid

    def mergedata(self):
        data = array.array('B')
        for dev in self:
            devdata = dev.getdata()
            lastpos = devdata[0] + len(devdata[1])
            if len(data) < lastpos:
                data.extend([0] * (lastpos - len(data)))
            for i in range(devdata[0], lastpos):
                data[i] = devdata[1][i - devdata[0]]
        return data[1:]

    def send(self, wrapper):
        md = self.mergedata()
        if enable:
            wrapper.Client().SendDmx(self.uniid, md, DmxSent)
        else:
            print ' '.join(['%02x' % i for i in md])

#
# actual effect code
#
class EffectRGBFadeJump(object):
    def __init__(self, target, fadespeed = 1./120., phasejump = 0.0):
        self.target = target
        self.phasejump = phasejump
        self.fadespeed = fadespeed
        self.control = 1.0
        self.camount = 0.0
        self.cphase = 0.0
        self.jumpv = 0.0
        self.jumpdecayset = 0.0
        self.jumpdecayfall = 0.9

        self.r_lastphase = 0
        self.r_phasejump = 0.0
        self.r_jumpdecay = 0.0

        self.hsvmap = lambda arg, h, s, v: (h, s, v)

    def update(self, timestamp):
        curphase = beatsep # int(timestamp)
        if self.r_lastphase != curphase:
            self.r_phasejump += self.phasejump
            self.r_lastphase = curphase
            self.r_jumpdecay = self.jumpdecayset

        phase = (self.r_phasejump + timestamp * self.fadespeed) % 1

        mixcorr = (cos((phase * 3) * 2*pi) - 1. / 2.) * 0.33

        h, s, v = (phase,
                1.0 - self.r_jumpdecay,
                (0.8 + mixcorr) * self.control + self.r_jumpdecay * self.jumpv)
        h, s, v = self.hsvmap(phase, h, s, v)

        (self.target.r, self.target.g, self.target.b) = \
            colorsys.hsv_to_rgb(h, s, v)
        self.r_jumpdecay *= self.jumpdecayfall


class EffectStaticHSV(object):
    def __init__(self, target):
        self.target = target
        self.h = 0.0
        self.s = 0.0
        self.v = 0.0

        self.r_phasejump = 0.0
        self.cphase = 0.0
        self.camount = 0.0

    def update(self, timestamp):
        (self.target.r, self.target.g, self.target.b) = \
            colorsys.hsv_to_rgb(self.h, self.s, self.v)        

class EffectEffectCross(object):
    def __init__(self, group, fadespeed = 1./2., phasejump = 0.0):
        self.group = group
        self.phasejump = phasejump
        self.fadespeed = fadespeed
        self.control = 1.0

        self.r_lastphase = 0
        self.r_phasejump = 0.0

    def update(self, timestamp):
        curphase = beatsep # int(timestamp)
        if self.r_lastphase != curphase:
            self.r_phasejump += self.phasejump
            self.r_lastphase = curphase

        phase = (self.r_phasejump + timestamp * self.fadespeed) % 1
        for e in self.group:
            e.control = sin((phase + e.cphase) * 2 * pi) * e.camount + 1.0

#
# deployed setup
#

universe = DMXUniverse(universenum)
universe.append(DMXLEDPAR( 1, 0.55))
universe.append(DMXLEDPAR( 6, 0.55))
universe.append(DMXLEDPAR(11, 0.55))
universe.append(DMXLEDPAR(16, 0.55))
universe.append(DMXLEDPAR(21, 0.55))

effects = [
    EffectRGBFadeJump(universe[0]),
    EffectStaticHSV(universe[1]),
    EffectRGBFadeJump(universe[2]),	# , fadespeed = 1./12., phasejump = 0.1),
    EffectRGBFadeJump(universe[3]),
    EffectStaticHSV(universe[4]),
]

effects.append(
    EffectEffectCross([effects[0], effects[1], effects[2], effects[3], effects[4]])
)

#
# control loop
#

lastbeat = 0.0
freerun = False
nobeat = True
lastphase = 0.0
bpmhist = []
prevrms = 0.0

def SendDMXFrame():
    global phase, tl, beatsep, lastbeat, bpm, bpmhist, freerun, nobeat, lastphase, prevrms
    wrapper.AddEvent(TICK_INTERVAL, SendDMXFrame)

    t = time()
    dt = t - tl
    tl = t
    phase += dt * bpm / 60.

    beat = False
    try:
        if os.access(ctlpath('.dmxbeat'), os.R_OK):
            os.unlink(ctlpath('.dmxbeat'))
            freerun = False
            nobeat = False
            beatsep += 1
            dbeat = t - lastbeat
            if 0.20 < dbeat < 0.90:
                nowbpm = 60. / dbeat
                bpmhist.insert(0, nowbpm)
                bpmhist = bpmhist[:10]
                bpmavg = sum(bpmhist) / len(bpmhist)
                print 'bpm: %6.1f   ' % (bpmavg), ', '.join(['%6.1f' % i for i in bpmhist])
                bpm = bpmavg
            lastbeat = t
            lastphase = phase
            beat = True

            phasephase = phase - int(phase)
            if phasephase > 0.5:
                phasephase -= 1.0
            print 'phph', phasephase
            phase -= phasephase * 0.05
    except Exception, e:
        traceback.print_exc()

    try:
        if os.access(ctlpath('.dmxfreebeat'), os.R_OK):
            os.unlink(ctlpath('.dmxfreebeat'))
            freerun = True
    except Exception, e:
        traceback.print_exc()

    try:
        if os.access(ctlpath('.dmxnobeat'), os.R_OK):
            os.unlink(ctlpath('.dmxnobeat'))
            nobeat = True
            freerun = False
    except Exception, e:
        traceback.print_exc()

    if t - lastbeat > (60. / bpm) * 1.8 and not nobeat:
        pass
        #if not freerun:
        #    print 'freerun'
        #freerun = True
    if freerun:
        if phase - lastphase >= 1.0:
            lastphase = phase
            beatsep += 1
            beat = True
            print 'freebeat', bpm

    try:
        execfile('dmxcontrol.py')
    except Exception, e:
        traceback.print_exc()

    for e in effects:
        e.update(phase)

    universe.send(wrapper)

class DummyVerse(object):
    def __init__(self):
        pass
    def Client(self):
        return self
    def SendDmx(self, uniid, data, cb):
        print uniid, data
    def Run(self):
        while True:
            sleep(1./30.)
            self.func()
    def AddEvent(self, ignore, func):
        self.func = func

#wrapper = DummyVerse()
wrapper = ClientWrapper()
wrapper.AddEvent(TICK_INTERVAL, SendDMXFrame)
try:
    wrapper.Run()
except KeyboardInterrupt:
    file(ctlpath('.dmxeffects'), 'w').write(str(phase))