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path: root/TamTamMini.activity/Mini/miniTamTamMain.py
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import pygtk
pygtk.require( '2.0' )
import gtk
import gobject
import os
import random
import time
import xdrlib
import commands

import sugar.graphics.style as style

from types import *
from math import sqrt
from common.Util.NoteDB import PARAMETER
from common.port.scrolledbox import VScrolledBox

import common.Util.Network as Net

import common.Config as Config

from Mini.miniToolbars import playToolbar
from Mini.miniToolbars import recordToolbar
from common.Util.ThemeWidgets import *
from common.Util.CSoundNote import CSoundNote
from common.Util import NoteDB
from common.Util.NoteDB import Note
from common.Util.CSoundClient import new_csound_client
from common.Util.LoopSettings import LoopSettings
from common.Util import InstrumentDB
from common.Util.Instruments import DRUMCOUNT, DRUMTIPS

from Fillin import Fillin
from KeyboardStandAlone import KeyboardStandAlone
from MiniSequencer import MiniSequencer
from Loop import Loop
from RythmGenerator import *
from common.Util.Trackpad import Trackpad
from Mini.InstrumentPanel import InstrumentPanel
from common.Util import OS

from gettext import gettext as _

Tooltips = Config.Tooltips

class miniTamTamMain(gtk.EventBox):

    def __init__(self, activity):
        gtk.EventBox.__init__(self)

        self.activity = activity

        #self.set_border_width(Config.MAIN_WINDOW_PADDING)
        #self.set_border_width(0)

        self.instrumentDB = InstrumentDB.getRef()
        self.firstTime = False
        self.playing = False
        self.csnd = new_csound_client()
        self.timeout_ms = 50
        self.instVolume = 50
        self.drumVolume = 0.5
        self.instrument = 'ocarina'
        self.regularity = 0.75
        self.beat = 4
        self.reverb = 0.1
        self.tempo = Config.PLAYER_TEMPO
        self.beatDuration = 60.0/self.tempo
        self.ticksPerSecond = Config.TICKS_PER_BEAT*self.tempo/60.0
        self.rythmInstrument = 'drum1kit'
        self.csnd.load_drumkit(self.rythmInstrument)
        self.muteInst = False
        self.drumFillin = Fillin( self.beat, self.tempo, self.rythmInstrument, self.reverb, self.drumVolume )
        self.sequencer= MiniSequencer(self.recordStateButton, self.recordOverSensitivity)
        self.loop = Loop(self.beat, sqrt( self.instVolume*0.01 ))
        self.csnd.setTempo(self.tempo)
        self.noteList = []
        time.sleep(0.001) # why?
        self.trackpad = Trackpad( self )
        for i in range(21):
            self.csnd.setTrackVolume( 100, i )

        for i in  range(10):
            r = str(i+1)
            self.csnd.load_instrument('guidice' + r)

        self.volume = 100
        self.csnd.setMasterVolume(self.volume)
        self.sequencer.beat = self.beat
        self.loop.beat = self.beat
        self.tooltips = gtk.Tooltips()

        self.masterVBox = gtk.VBox()
        self.mainWindowBox = gtk.HBox()
        self.leftBox = gtk.VBox()
        self.rightBox = gtk.VBox()
        self.mainWindowBox.pack_start(self.rightBox, False, True)
        self.mainWindowBox.pack_start(self.leftBox, True, True)
        self.masterVBox.pack_start(self.mainWindowBox)
        self.add(self.masterVBox)

        self.enableKeyboard()
        self.setInstrument(self.instrument)

        self.drawGeneration()
        self.show_all()
        if 'a good idea' == True:
            self.playStartupSound()

        self.beatPickup = True
        #self.regenerate()

        self.heartbeatStart = time.time()
        self.syncQueryStart = {}
        self.syncTimeout = None

        self.network = Net.Network()
        self.network.addWatcher( self.networkStatusWatcher )
        self.network.connectMessage( Net.HT_SYNC_REPLY, self.processHT_SYNC_REPLY )
        self.network.connectMessage( Net.HT_TEMPO_UPDATE, self.processHT_TEMPO_UPDATE )
        self.network.connectMessage( Net.PR_SYNC_QUERY, self.processPR_SYNC_QUERY )
        self.network.connectMessage( Net.PR_TEMPO_QUERY, self.processPR_TEMPO_QUERY )
        self.network.connectMessage( Net.PR_REQUEST_TEMPO_CHANGE, self.processPR_REQUEST_TEMPO_CHANGE )

        # data packing classes
        self.packer = xdrlib.Packer()
        self.unpacker = xdrlib.Unpacker("")

        #-- handle forced networking ---------------------------------------
        if self.network.isHost():
            self.updateSync()
            self.syncTimeout = gobject.timeout_add( 1000, self.updateSync )
        elif self.network.isPeer():
            self.sendTempoQuery()
            self.syncTimeout = gobject.timeout_add( 1000, self.updateSync )
        #-------------------------------------------------------------------

        # Toolbar
        self.activity.activity_toolbar.share.show()
        self._playToolbar = playToolbar(self.activity.toolbox, self)

        ## set to 1 to show play and record tabs ##
        if 0:
            self._recordToolbar = recordToolbar(self.activity.toolbox, self)
            self.activity.toolbox.add_toolbar(_('Play'), self._playToolbar)
            self.activity.toolbox.add_toolbar(_('Record'), self._recordToolbar)
            self.activity.toolbox.set_current_toolbar(1)
            self._playToolbar.show()
            self._recordToolbar.show()

        self.activity.connect( "shared", self.shared )

        if os.path.isfile("FORCE_SHARE"):    # HOST
            r = random.random()
            #print "::::: Sharing as TTDBG%f :::::" % r
            #self.activity.set_title(_("TTDBG%f" % r))
            print "::::: Sharing as TamTam :::::"
            self.activity.set_title(_("TamTam"))
            self.activity.share()
        elif self.activity._shared_activity: # PEER
            self.activity._shared_activity.connect( "buddy-joined", self.buddy_joined )
            self.activity._shared_activity.connect( "buddy-left", self.buddy_left )
            self.activity.connect( "joined", self.joined )
            self.network.setMode( Net.MD_WAIT )
            #self.activity.activity_toolbar.share.hide()

    def drawGeneration( self ):

        slidersBox = RoundVBox(fillcolor = Config.PANEL_COLOR, bordercolor = Config.PANEL_BCK_COLOR, radius = Config.PANEL_RADIUS)
        slidersBox.set_border_width(Config.PANEL_SPACING)

        geneSliderBox = gtk.VBox()
        self.geneSliderBoxImgTop = gtk.Image()
        self.geneSliderBoxImgTop.set_from_file(Config.IMAGE_ROOT + 'complex6.png')
        self.geneAdjustment = gtk.Adjustment(value=self.regularity, lower=0, upper=1, step_incr=0.01, page_incr=0, page_size=0)
        self.geneSlider = ImageVScale( Config.IMAGE_ROOT + "sliderbutbleu.png", self.geneAdjustment, 5 )
        self.geneSlider.set_inverted(False)
        self.geneSlider.set_size_request(15,-1)
        self.geneAdjustment.connect("value_changed" , self.handleGenerationSlider)
        self.geneSlider.connect("button-release-event", self.handleGenerationSliderRelease)
        geneSliderBox.pack_start(self.geneSliderBoxImgTop, False, padding=10)
        geneSliderBox.pack_start(self.geneSlider, True, 20)
        self.tooltips.set_tip(self.geneSlider,Tooltips.COMPL)

        beatSliderBox = gtk.VBox()
        self.beatSliderBoxImgTop = gtk.Image()
        self.beatSliderBoxImgTop.set_from_file(Config.IMAGE_ROOT + 'beat3.png')
        self.beatAdjustment = gtk.Adjustment(value=self.beat, lower=2, upper=12, step_incr=1, page_incr=0, page_size=0)
        self.beatSlider = ImageVScale( Config.IMAGE_ROOT + "sliderbutjaune.png", self.beatAdjustment, 5, snap = 1 )
        self.beatSlider.set_inverted(True)
        self.beatSlider.set_size_request(15,-1)
        self.beatAdjustment.connect("value_changed" , self.handleBeatSlider)
        self.beatSlider.connect("button-release-event", self.handleBeatSliderRelease)
        beatSliderBox.pack_start(self.beatSliderBoxImgTop, False, padding=10)
        beatSliderBox.pack_start(self.beatSlider, True, 20)
        self.tooltips.set_tip(self.beatSlider,Tooltips.BEAT)

        self.delayedTempo = 0 # used to store tempo updates while the slider is active
        self.tempoSliderActive = False

        tempoSliderBox = gtk.VBox()
        self.tempoSliderBoxImgTop = gtk.Image()
        self.tempoSliderBoxImgTop.set_from_file(Config.IMAGE_ROOT + 'tempo5.png')
        self.tempoAdjustment = gtk.Adjustment(value=self.tempo, lower=Config.PLAYER_TEMPO_LOWER, upper=Config.PLAYER_TEMPO_UPPER, step_incr=1, page_incr=1, page_size=1)
        tempoSlider = ImageVScale( Config.IMAGE_ROOT + "sliderbutvert.png", self.tempoAdjustment, 5)
        tempoSlider.set_inverted(True)
        tempoSlider.set_size_request(15,-1)
        self.tempoAdjustmentHandler = self.tempoAdjustment.connect("value_changed" , self.handleTempoSliderChange)
        tempoSlider.connect("button-press-event", self.handleTempoSliderPress)
        tempoSlider.connect("button-release-event", self.handleTempoSliderRelease)
        tempoSliderBox.pack_start(self.tempoSliderBoxImgTop, False, padding=10)
        tempoSliderBox.pack_start(tempoSlider, True)
        self.tooltips.set_tip(tempoSlider,Tooltips.TEMPO)

        volumeSliderBox = gtk.VBox()
        self.volumeSliderBoxImgTop = gtk.Image()
        self.volumeSliderBoxImgTop.set_from_file(Config.IMAGE_ROOT + 'volume2.png')
        self.volumeAdjustment = gtk.Adjustment(value=self.volume, lower=0, upper=200, step_incr=1, page_incr=1, page_size=1)
        volumeSlider = ImageVScale( Config.IMAGE_ROOT + "sliderbutbleu.png", self.volumeAdjustment, 5)
        volumeSlider.set_inverted(True)
        volumeSlider.set_size_request(15,-1)
        self.volumeAdjustment.connect("value_changed" , self.handleVolumeSlider)
        #volumeSlider.connect("button-release-event", self.handleVolumeSliderRelease)
        volumeSliderBox.pack_start(self.volumeSliderBoxImgTop, False, padding=10)
        volumeSliderBox.pack_start(volumeSlider, True)
        self.tooltips.set_tip(volumeSlider,Tooltips.VOL)


        slidersBoxSub = gtk.HBox()
        slidersBoxSub.pack_start(beatSliderBox)
        slidersBoxSub.pack_start(geneSliderBox)
        slidersBoxSub.pack_start(tempoSliderBox)
        slidersBoxSub.pack_start(volumeSliderBox)
        slidersBox.pack_start(slidersBoxSub)

        generateBtnSub = RoundHBox(
                fillcolor=Config.PANEL_COLOR,
                bordercolor=Config.PANEL_BCK_COLOR,
                radius=Config.PANEL_RADIUS)
        generateBtnSub.set_border_width(Config.PANEL_SPACING)

        #playImg = gtk.Image()
        #playImg.set_from_icon_name('media-playback-start', gtk.ICON_SIZE_LARGE_TOOLBAR)
        self.playButton = ImageToggleButton(Config.IMAGE_ROOT + 'miniplay.png', Config.IMAGE_ROOT + 'stop.png')
        #self.playButton.set_relief(gtk.RELIEF_NONE)
        #self.playButton.set_image(playImg)
        self.playButton.connect('clicked',self.handlePlayButton)
        generateBtnSub.pack_start(self.playButton)
        #self.playButton.set_tooltip(_('Play / Stop'))

        generateBtn = ImageButton(Config.IMAGE_ROOT + 'dice.png', clickImg_path = Config.IMAGE_ROOT + 'diceblur.png')
        generateBtn.connect('button-press-event', self.handleGenerateBtn)
        generateBtnSub.pack_start(generateBtn)
        self.tooltips.set_tip(generateBtn,Tooltips.GEN)

        # drums

        drum_box = RoundVBox(
                fillcolor=Config.PANEL_COLOR,
                bordercolor=Config.PANEL_BCK_COLOR,
                radius=Config.PANEL_RADIUS)
        drum_box.set_border_width(Config.PANEL_SPACING)

        drum_scroll = VScrolledBox(scroll_policy=gtk.POLICY_NEVER)
        drum_scroll.set_viewport(drum_box)
        drum_scroll.modify_bg(gtk.STATE_NORMAL,
                style.Color(Config.PANEL_BCK_COLOR).get_gdk_color())
        drum_i = 0
        drum_group = None

        for row in range(DRUMCOUNT/2 + DRUMCOUNT%2):
            row_box = gtk.HBox()
            drum_box.pack_start(row_box, False)

            for col in range(2):
                if drum_i >= DRUMCOUNT:
                    break

                drum = ImageRadioButton(
                        group=drum_group,
                        mainImg_path=Config.IMAGE_ROOT + \
                                ('drum%dkit.png' % (drum_i+1)),
                        altImg_path=Config.IMAGE_ROOT + \
                                ('drum%dkitselgen.png' % (drum_i+1)))
                drum.connect('clicked', self.handleGenerationDrumBtn,
                        'drum%dkit' % (drum_i+1))
                row_box.pack_start(drum)

                self.tooltips.set_tip(drum, DRUMTIPS[drum_i])

                if not drum_group:
                    drum_group = drum
                drum_i += 1

        self.rightBox.pack_start(slidersBox, False)
        self.rightBox.pack_start(generateBtnSub, False)
        self.rightBox.pack_start(drum_scroll)

        drum_size = drum_group.get_size_request()
        slidersBox.set_size_request(-1, drum_size[1]*2)
        self.rightBox.set_size_request(drum_size[0]*2, -1)

    def loopSettingsChannel(self, channel, value):
        self.csnd.setChannel(channel, value)

    def loopSettingsPlayStop(self, state, loop):
        if not state:
            if loop:
                self.loopSettingsPlaying = True
                self.csnd.inputMessage(Config.CSOUND_PLAY_LS_NOTE % 5022)
            else:
                self.csnd.inputMessage(Config.CSOUND_PLAY_LS_NOTE % 5023)
        else:
            if loop:
                self.loopSettingsPlaying = False
                self.csnd.inputMessage(Config.CSOUND_STOP_LS_NOTE)

    def load_ls_instrument(self, soundName):
        self.csnd.load_ls_instrument(soundName)

    def setInstrumentPanel( self, instrumentPanel ):
        width = gtk.gdk.screen_width() - self.rightBox.get_size_request()[0]
        instrumentPanel.configure( self.setInstrument,self.playInstrumentNote, False, self.micRec, width = width )
        self.instrumentPanel = instrumentPanel
        self.leftBox.pack_start( instrumentPanel )

    def releaseInstrumentPanel( self ):
        self.leftBox.remove( self.instrumentPanel )

    def micRec(self, widget, mic):
        self.csnd.inputMessage("i5600 0 4")
        OS.arecord(4, "crop.csd", mic)
        self.micTimeout = gobject.timeout_add(200, self.loadMicInstrument, mic)
        self.instrumentPanel.set_activeInstrument(mic,True)
        self.setInstrument(mic)

    def recordStateButton( self, button, state ):
        if button == 1:
            self._recordToolbar.keyboardRecButton.set_active( state )
        else:
            self._recordToolbar.keyboardRecOverButton.set_active( state )

    def recordOverSensitivity( self, state ):
        pass
        #self._recordToolbar.keyboardRecOverButton.set_sensitive( state )

    def loadMicInstrument( self, data ):
        self.csnd.load_mic_instrument( data )

    def regenerate(self):
        def flatten(ll):
            rval = []
            for l in ll:
                rval += l
            return rval
        if self.beatPickup:
            self.pickupNewBeat()
        noteOnsets = []
        notePitchs = []
        i = 0
        self.noteList= []
        self.csnd.loopClear()
        for x in flatten( generator(self.rythmInstrument, self.beat, 0.8, self.regularity, self.reverb) ):
            x.amplitude = x.amplitude * self.drumVolume
            noteOnsets.append(x.onset)
            notePitchs.append(x.pitch)
            n = Note(0, x.trackId, i, x)
            self.noteList.append( (x.onset, n) )
            i = i + 1
            self.csnd.loopPlay(n,1)                    #add as active
        self.csnd.loopSetNumTicks( self.beat * Config.TICKS_PER_BEAT)
        self.drumFillin.unavailable( noteOnsets, notePitchs )
        self.recordOverSensitivity( False )
        if self.playing:
            self.csnd.loopStart()

    def adjustDrumVolume(self):
        for n in self.noteList:
            self.csnd.loopUpdate(n[1], PARAMETER.AMPLITUDE, n[1].cs.amplitude*self.drumVolume, 1)

    def handleClose(self,widget):
        if self.playStopButton.get_active() == True:
            self.playStopButton.set_active(False)
        self.sequencer.clearSequencer()
        self.csnd.loopClear()
        self.activity.close()

    def handleGenerationSlider(self, adj):
        img = int(adj.value * 7)+1
        self.geneSliderBoxImgTop.set_from_file(Config.IMAGE_ROOT + 'complex' + str(img) + '.png')

    def handleGenerationSliderRelease(self, widget, event):
        self.regularity = widget.get_adjustment().value
        self.beatPickup = False
        self.regenerate()
        self.beatPickup = True

    def pickupNewBeat(self):
        self.beat = random.randint(2, 12)
        img = self.scale(self.beat,2,12,1,11)
        self.beatSliderBoxImgTop.set_from_file(Config.IMAGE_ROOT + 'beat' + str(img) + '.png')
        self.beatAdjustment.set_value(self.beat)

        self.regularity = random.randint(50, 100) * 0.01
        img = int(self.regularity * 7)+1
        self.geneSliderBoxImgTop.set_from_file(Config.IMAGE_ROOT + 'complex' + str(img) + '.png')
        self.geneAdjustment.set_value(self.regularity)

        self.sequencer.beat = self.beat
        self.loop.beat = self.beat
        self.drumFillin.setBeats( self.beat )

    def handleBeatSlider(self, adj):
        img = self.scale(int(adj.value),2,12,1,11)
        self.beatSliderBoxImgTop.set_from_file(Config.IMAGE_ROOT + 'beat' + str(img) + '.png')
        self.sequencer.beat = self.beat
        self.loop.beat = self.beat
        self.drumFillin.setBeats( self.beat )

    def handleBeatSliderRelease(self, widget, event):
        self.beat = int(widget.get_adjustment().value)
        self.sequencer.beat = self.beat
        self.loop.beat = self.beat
        self.drumFillin.setBeats( self.beat )
        self.beatPickup = False
        self.regenerate()
        self.beatPickup = True

    def handleTempoSliderPress(self, widget, event):
        self.tempoSliderActive = True

    def handleTempoSliderRelease(self, widget, event):
        self.tempoSliderActive = False
        if self.network.isPeer() and self.delayedTempo != 0:
            if self.tempo != self.delayedTempo:
                self.tempoAdjustment.handler_block( self.tempoAdjustmentHandler )
                self.tempoAdjustment.set_value( self.delayedTempo )
                self._updateTempo( self.delayedTempo )
                self.tempoAdjustment.handler_unblock( self.tempoAdjustmentHandler )
            self.delayedTempo = 0
            self.sendSyncQuery()

    def handleTempoSliderChange(self,adj):
        if self.network.isPeer():
            self.requestTempoChange(int(adj.value))
        else:
            self._updateTempo( int(adj.value) )

    def _updateTempo( self, val ):

        if self.network.isHost():
            t = time.time()
            percent = self.heartbeatElapsed() / self.beatDuration

        self.tempo = val
        self.beatDuration = 60.0/self.tempo
        self.ticksPerSecond = Config.TICKS_PER_BEAT*self.tempo/60.0
        self.csnd.setTempo(self.tempo)
        self.sequencer.tempo = self.tempo
        self.drumFillin.setTempo(self.tempo)

        if self.network.isHost():
            self.heatbeatStart = t - percent*self.beatDuration
            self.updateSync()
            self.sendTempoUpdate()

        img = int(self.scale( self.tempo,
            Config.PLAYER_TEMPO_LOWER,Config.PLAYER_TEMPO_UPPER,
            1,9))
        self.tempoSliderBoxImgTop.set_from_file(Config.IMAGE_ROOT + 'tempo' + str(img) + '.png')

    def handleBalanceSlider(self, adj):
        self.instVolume = int(adj.value)
        self.drumVolume = sqrt( (100-self.instVolume)*0.01 )
        self.adjustDrumVolume()
        self.drumFillin.setVolume(self.drumVolume)
        instrumentVolume = sqrt( self.instVolume*0.01 )
        self.loop.adjustLoopVolume(instrumentVolume)
        self.sequencer.adjustSequencerVolume(instrumentVolume)
        img = int(self.scale(self.instVolume,100,0,0,4.9))
        self._playToolbar.balanceSliderImgLeft.set_from_file(Config.IMAGE_ROOT + 'dru' + str(img) + '.png')
        img2 = int(self.scale(self.instVolume,0,100,0,4.9))
        self._playToolbar.balanceSliderImgRight.set_from_file(Config.IMAGE_ROOT + 'instr' + str(img2) + '.png')

    def handleReverbSlider(self, adj):
        self.reverb = adj.value
        self.drumFillin.setReverb( self.reverb )
        img = int(self.scale(self.reverb,0,1,0,4))
        self._playToolbar.reverbSliderImgRight.set_from_file(Config.IMAGE_ROOT + 'reverb' + str(img) + '.png')
        self.keyboardStandAlone.setReverb(self.reverb)

    def handleVolumeSlider(self, adj):
        self.volume = adj.value
        self.csnd.setMasterVolume(self.volume)
        img = int(self.scale(self.volume,0,200,0,3.9))
        self.volumeSliderBoxImgTop.set_from_file(Config.IMAGE_ROOT + 'volume' + str(img) + '.png')

    def handlePlayButton(self, widget, data = None):
    # use widget.get_active() == False when calling this on 'clicked'
    # use widget.get_active() == True when calling this on button-press-event
        if widget.get_active() == False:
            self.drumFillin.stop()
            self.sequencer.stopPlayback()
            self.csnd.loopPause()
            self.playing = False
        else:
            if not self.firstTime:
                self.regenerate()
                self.firstTime = True
            self.drumFillin.play()
            #self.csnd.loopSetTick(0)
            nextInTicks = self.nextHeartbeatInTicks()
            #print "play:: next beat in %f ticks. bpb == %d. setting ticks to %d" % (nextInTicks, self.beat, Config.TICKS_PER_BEAT*self.beat - int(round(nextInTicks)))
            self.csnd.loopSetTick( Config.TICKS_PER_BEAT*self.beat - int(round(nextInTicks)) )
            self.csnd.loopStart()
            self.playing = True


    def handleGenerationDrumBtn(self , widget , data):
        #data is drum1kit, drum2kit, or drum3kit
        #print 'HANDLE: Generate Button'
        self.rythmInstrument = data
        self.csnd.load_drumkit(data)
        instrumentId = self.instrumentDB.instNamed[data].instrumentId
        for (o,n) in self.noteList :
            self.csnd.loopUpdate(n, NoteDB.PARAMETER.INSTRUMENT, instrumentId, -1)
        self.drumFillin.setInstrument( self.rythmInstrument )

    def handleGenerateBtn(self , widget , data=None):
        self.regenerate()
        if not self.playButton.get_active():
            self.playButton.set_active(True)

        #this calls sends a 'clicked' event,
        #which might be connected to handlePlayButton
        self.playStartupSound()

    def enableKeyboard( self ):
        self.keyboardStandAlone = KeyboardStandAlone( self.sequencer.recording, self.sequencer.adjustDuration, self.csnd.loopGetTick, self.sequencer.getPlayState, self.loop )
        self.add_events(gtk.gdk.BUTTON_PRESS_MASK)

    def setInstrument( self , instrument ):
        self.instrument = instrument
        self.keyboardStandAlone.setInstrument(instrument)
        self.csnd.load_instrument(instrument)

    def playInstrumentNote(self , instrument, secs_per_tick = 0.025):
        if not self.muteInst:
            self.csnd.play(
                    CSoundNote( onset = 0,
                             pitch = 36,
                             amplitude = 1,
                             pan = 0.5,
                             duration = 20,
                             trackId = 1,
                             instrumentId = self.instrumentDB.instNamed[instrument].instrumentId,
                             reverbSend = self.reverb,
                             tied = False,
                             mode = 'mini'),
                    secs_per_tick)

    def onKeyPress(self, widget, event):
        if event.hardware_keycode == 219: #'/*' button to reset drum loop
            if self.playStopButton.get_active() == True:
                self.handlePlayButton(self.playStopButton)
                self.playStopButton.set_active(False)
                self.handlePlayButton(self.playStopButton)
                self.playStopButton.set_active(True)

        if event.hardware_keycode == 37:
            if self.muteInst:
                self.muteInst = False
            else:
                self.muteInst = True

        if event.hardware_keycode == 65: #what key is this? what feature is this?
            pass
            #if self.playStopButton.get_active():
                #self.playStopButton.set_active(False)
            #else:
                #self.playStopButton.set_active(True)

        self.keyboardStandAlone.onKeyPress(widget, event, sqrt( self.instVolume*0.01 ))

    def onKeyRelease(self, widget, event):
        self.keyboardStandAlone.onKeyRelease(widget, event)

    def playStartupSound(self):
        r = str(random.randrange(1,11))
        self.playInstrumentNote('guidice' + r)

    def onActivate( self, arg ):
        self.csnd.loopPause()
        self.csnd.loopClear()

    def onDeactivate( self ):
        SubActivity.onDeactivate( self )
        self.releaseInstrumentPanel()
        self.csnd.loopPause()
        self.csnd.loopClear()

    def onDestroy( self ):
        self.network.shutdown()

    def scale(self, input,input_min,input_max,output_min,output_max):
        range_input = input_max - input_min
        range_output = output_max - output_min
        result = (input - input_min) * range_output / range_input + output_min

        if (input_min > input_max and output_min > output_max) or (output_min > output_max and input_min < input_max):
            if result > output_min:
                return output_min
            elif result < output_max:
                return output_max
            else:
                return result

        if (input_min < input_max and output_min < output_max) or (output_min < output_max and input_min > input_max):
            if result > output_max:
                return output_max
            elif result < output_min:
                return output_min
            else:
                return result


    #-----------------------------------------------------------------------
    # Network

    #-- Activity -----------------------------------------------------------

    def shared( self, activity ):
        if Config.DEBUG: print "miniTamTam:: successfully shared, start host mode"
        self.activity._shared_activity.connect( "buddy-joined", self.buddy_joined )
        self.activity._shared_activity.connect( "buddy-left", self.buddy_left )
        self.network.setMode( Net.MD_HOST )
        self.updateSync()
        self.syncTimeout = gobject.timeout_add( 1000, self.updateSync )

    def joined( self, activity ):
        print "miniTamTam:: joined activity!!"
        for buddy in self.activity._shared_activity.get_joined_buddies():
            print buddy.props.ip4_address

    def buddy_joined( self, activity, buddy ):
        print "buddy joined " + str(buddy)
        try:
            print buddy.props.ip4_address
        except:
            print "bad ip4_address"
        if self.network.isHost():
            # TODO how do I figure out if this buddy is me?
            if buddy.props.ip4_address:
                self.network.introducePeer( buddy.props.ip4_address )
            else:
                print "miniTamTam:: new buddy does not have an ip4_address!!"

    def buddy_left( self, activity, buddy):
        print "buddy left"

    #def joined( self, activity ):
    #    if Config.DEBUG: print "miniTamTam:: successfully joined, wait for host"
    #    self.net.waitForHost()

    #-- Senders ------------------------------------------------------------

    def sendSyncQuery( self ):
        self.packer.pack_float(random.random())
        hash = self.packer.get_buffer()
        self.packer.reset()
        self.syncQueryStart[hash] = time.time()
        self.network.send( Net.PR_SYNC_QUERY, hash)

    def sendTempoUpdate( self ):
        self.packer.pack_int(self.tempo)
        self.network.sendAll( Net.HT_TEMPO_UPDATE, self.packer.get_buffer() )
        self.packer.reset()

    def sendTempoQuery( self ):
        self.network.send( Net.PR_TEMPO_QUERY )

    def requestTempoChange( self, val ):
        self.packer.pack_int(val)
        self.network.send( Net.PR_REQUEST_TEMPO_CHANGE, self.packer.get_buffer() )
        self.packer.reset()

    #-- Handlers -----------------------------------------------------------

    def networkStatusWatcher( self, mode ):
        if mode == Net.MD_OFFLINE:
            if self.syncTimeout:
                gobject.source_remove( self.syncTimeout )
                self.syncTimeout = None
        if mode == Net.MD_PEER:
            self.updateSync()
            if not self.syncTimeout:
                self.syncTimeout = gobject.timeout_add( 1000, self.updateSync )
            self.sendTempoQuery()

    def processHT_SYNC_REPLY( self, sock, message, data ):
        t = time.time()
        hash = data[0:4]
        latency = t - self.syncQueryStart[hash]
        self.unpacker.reset(data[4:8])
        nextBeat = self.unpacker.unpack_float()
        #print "mini:: got sync: next beat in %f, latency %d" % (nextBeat, latency*1000)
        self.heartbeatStart = t + nextBeat - self.beatDuration - latency/2
        self.correctSync()
        self.syncQueryStart.pop(hash)

    def processHT_TEMPO_UPDATE( self, sock, message, data ):
        self.unpacker.reset(data)
        val = self.unpacker.unpack_int()
        if self.tempoSliderActive:
            self.delayedTempo = val
            return
        self.tempoAdjustment.handler_block( self.tempoAdjustmentHandler )
        self.tempoAdjustment.set_value( val )
        self._updateTempo( val )
        self.tempoAdjustment.handler_unblock( self.tempoAdjustmentHandler )
        self.sendSyncQuery()

    def processPR_SYNC_QUERY( self, sock, message, data ):
        self.packer.pack_float(self.nextHeartbeat())
        self.network.send( Net.HT_SYNC_REPLY, data + self.packer.get_buffer(), sock )
        self.packer.reset()

    def processPR_TEMPO_QUERY( self, sock, message, data ):
        self.packer.pack_int(self.tempo)
        self.network.send( Net.HT_TEMPO_UPDATE, self.packer.get_buffer(), to = sock )
        self.packer.reset()

    def processPR_REQUEST_TEMPO_CHANGE( self, sock, message, data ):
        if self.tempoSliderActive:
            return
        self.unpacker.reset(data)
        val = self.unpacker.unpack_int()
        self.tempoAdjustment.set_value( val )

    #-----------------------------------------------------------------------
    # Sync

    def nextHeartbeat( self ):
        delta = time.time() - self.heartbeatStart
        return self.beatDuration - (delta % self.beatDuration)

    def nextHeartbeatInTicks( self ):
        delta = time.time() - self.heartbeatStart
        next = self.beatDuration - (delta % self.beatDuration)
        return self.ticksPerSecond*next

    def heartbeatElapsed( self ):
        delta = time.time() - self.heartbeatStart
        return delta % self.beatDuration

    def heartbeatElapsedTicks( self ):
        delta = time.time() - self.heartbeatStart
        return self.ticksPerSecond*(delta % self.beatDuration)

    def updateSync( self ):
        if self.network.isOffline():
            return False
        elif self.network.isWaiting():
            return True
        elif self.network.isHost():
            self.correctSync()
        else:
            self.sendSyncQuery()
        return True

    def correctSync( self ):
        curTick = self.csnd.loopGetTick()
        curTicksIn = curTick % Config.TICKS_PER_BEAT
        ticksIn = self.heartbeatElapsedTicks()
        err = curTicksIn - ticksIn
        if err > Config.TICKS_PER_BEAT_DIV2:
            err -= Config.TICKS_PER_BEAT
        elif err < -Config.TICKS_PER_BEAT_DIV2:
            err += Config.TICKS_PER_BEAT
        correct = curTick - err
        ticksPerLoop = Config.TICKS_PER_BEAT*self.beat
        if correct > ticksPerLoop:
            correct -= ticksPerLoop
        elif correct < 0:
            correct += ticksPerLoop
        #print "correct:: %f ticks, %f ticks in, %f expected, %f err, correct %f" % (curTick, curTicksIn, ticksIn, err, correct)
        if abs(err) > 0.25:
            self.csnd.adjustTick(-err)


if __name__ == "__main__":
    MiniTamTam = miniTamTam()
    #start the gtk event loop
    gtk.main()