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compiler.py
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#!/usr/bin/env python
'''
The MIT License
Copyright (c) 2017 Arthur Bennis. http://sinneb.net
Permission is hereby granted, free of charge, to any person obtaining a copy
of this software and associated documentation files (the "Software"), to deal
in the Software without restriction, including without limitation the rights
to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
copies of the Software, and to permit persons to whom the Software is
furnished to do so, subject to the following conditions:
The above copyright notice and this permission notice shall be included in
all copies or substantial portions of the Software.
THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
THE SOFTWARE.
'''
import json, sys, os, time, subprocess, itertools
def getfiles(dirpath):
a = [s for s in os.listdir(dirpath)
if os.path.isfile(os.path.join(dirpath, s))]
a.sort(key=lambda s: os.path.getmtime(os.path.join(dirpath, s)),reverse=True)
return a
def grouper(n, iterable, fillvalue=None):
args = [iter(iterable)] * n
return itertools.izip_longest(fillvalue=fillvalue, *args)
def createPyoScript(jsonstring):
# unique mixerkeys
mixerkey = 10;
# open output file for writing
fileout = open("pyoscript.py","w")
parsed_json = json.loads(jsonstring)
# fix id's - remove . and prepend with pyo (vars can't start with numbers)
for node in parsed_json:
if node['type']!='tab':
node['id'] = "pyo" + node['id'].replace(".","")
# remove . in wires
for wire in node['wires']:
# check for multiple subwires
for it in range(0,len(wire)/3):
wire[it*3] = "pyo" + wire[it*3].replace(".","")
# pyo header
fileout.write("#!/usr/bin/env python\n")
fileout.write("from pyo import *\n")
fileout.write("from time import sleep\n")
fileout.write("\n")
fileout.write("s = Server(audio='jack')\n")
#fileout.write("s.setInOutDevice(3)\n")
fileout.write("s.setMidiInputDevice(99)\n")
fileout.write("s.boot().start()\n\n")
# general dummy pyobjects for init
fileout.write("dummy = LFO(freq=0)\n")
fileout.write("dummymidi = Notein()\n")
fileout.write("dummytable = NewTable(length=1, chnls=1)\n\n")
fileout.write("dummyinput = Input(chnl=0, mul=.7)\n\n")
# tables
# fileout.write("hann = HannTable()\n")
# fileout.write("harm = HarmTable()\n")
# fileout.write("log = LogTable()\n")
# fileout.write("para = ParaTable()\n")
# fileout.write("partial = PartialTable()\n")
# fileout.write("saw = SawTable(order=32)\n")
# fileout.write("sinc = SincTable()\n")
# fileout.write("atan = AtanTable()\n")
# fileout.write("padsynth = PadSynthTable()\n")
# fileout.write("tuckey = WinTable(type=7)\n")
# fileout.write("bartlett = WinTable(type=3)\n")
# fileout.write("coslog = CosLogTable([(0,0), (4095,1), (8192,0)])\n")
# first write all tables to pyoscript
for node in parsed_json:
#if node['type']!='tab':
if node['type']=='SndTable':
fileout.write("%s = SndTable(\"%s\")\n" % (node['id'], node['table']))
# write AKWF table for AKWFOscTrig
if node['type']=='AKWFOscTrig':
fileout.write("table_%s = SndTable(\"webroot/%s.wav\")\n" % (node['id'], node['table']))
fileout.write("\n")
# write init for other pyo objects
for node in parsed_json:
if node['type']!='tab':
#print node
# build argument list
argumentlist = ""
for field in node:
if(field[:4]=="arg_"):
if (field[4:]=="freq"):
# reserve 10 streams for poly
# for now 1 to save on resources
argumentlist += "%s = [%s]*1, " % (field[4:], node[field])
else:
argumentlist += "%s = %s, " % (field[4:], node[field])
# remove trailing , and space
argumentlist = argumentlist.rstrip(', ')
# handle special nodes
# node: out
if node['type']=='out':
# mixer chnls should match the poly on notein (which is max 10)
# mixer sending all inputs to sound output -> out()
fileout.write("%s = Mixer(outs=2, chnls=10).out()\n" % (node['id']))
elif node['type']=='mix4':
# create _mixer alias
# downmix _mixer alias in original nodeid
fileout.write("%s_mixer = Mixer(outs=2, chnls=10)\n" % (node['id']))
fileout.write("%s = %s_mixer[0] + %s_mixer[1]\n" % (node['id'],node['id'],node['id']))
elif node['type']=='Multiply':
fileout.write("%s = Allpass(input=[dummy]*10, delay=0, feedback=0, maxdelay=0, mul=%s)\n" % (node['id'], node['arg_mult']))
elif node['type']=='Add':
fileout.write("%s = Allpass(input=[dummy]*10, delay=0, feedback=0, maxdelay=0, mul=1, add=%s)\n" % (node['id'], node['arg_add']))
elif node['type']=='SndTable':
pass
elif node['type']=='TableRec':
fileout.write("%s = TableRec(dummyinput, table=dummytable, fadetime=0.05)\n" % (node['id']))
# and write out its triggerfunction
fileout.write("def func_%s():\n" % (node['id']))
fileout.write("\t%s.play()\n\n" % (node['id']))
elif node['type']=='AKWFOscTrig':
fileout.write("%s = OscTrig(%s, table=%s)\n" % (node['id'], argumentlist,"table_"+node['id']))
elif node['type']=='Metro':
fileout.write("%s = %s(%s).play()\n" % (node['id'], node['type'], argumentlist))
elif node['type']=='Beat':
fileout.write("%s = %s(%s).play()\n" % (node['id'], node['type'], argumentlist))
elif node['type']=='Cloud':
fileout.write("%s = %s(%s).play()\n" % (node['id'], node['type'], argumentlist))
elif node['type']=='Euclide':
fileout.write("%s = %s(%s).play()\n" % (node['id'], node['type'], argumentlist))
elif node['type']=='Seq':
fileout.write("%s = %s(%s).play()\n" % (node['id'], node['type'], argumentlist))
# ordinary nodes
else:
# output object
fileout.write("%s = %s(%s)\n" % (node['id'], node['type'], argumentlist))
fileout.write("\n")
# connect wires
for node in parsed_json:
# print "---"
# print node['type']
# print node
if node['type']!='tab':
# detect multiple wires (e.g. this node has multiple outs)
wireID = 0;
# iterate through "wires" in nodes
for wire in node['wires']:
# handle special nodes
currentNodeID = node['id']
if node['type']=='Notein':
if wireID==0:
currentNodeID = node['id']+"['pitch']"
if wireID==1:
currentNodeID = node['id']+"['velocity']"
# wire contains all outgoing wires per node like [u'pyob32a8810e77fe8', 1, u'ratio', u'b32a8810.e77fe8', 2, u'index', u'b32a8810.e77fe8', 0, u'carrier']
# destination node id, destination portnumber, destination port name.
# split and handle per wire
subwirelist = list(grouper(3,wire))
for subwire in subwirelist:
# print subwire
# find destination node type
destinationNodeType = ""
for destNode in parsed_json:
if destNode['type']!='tab' and destNode['id']==subwire[0]:
destinationNodeType = destNode['type']
print "---"
print subwire
print destinationNodeType
# handle special nodes
if destinationNodeType == 'out':
fileout.write("%s.addInput(%s,%s)\n" % (subwire[0],mixerkey,currentNodeID))
# left and right channel
fileout.write("%s.setAmp(%s,0,1)\n" % (subwire[0],mixerkey))
fileout.write("%s.setAmp(%s,1,1)\n" % (subwire[0],mixerkey))
mixerkey += 1
elif destinationNodeType == 'mix4':
if subwire[2] == 'mul':
fileout.write("%s_mixer.mul = %s\n" % (subwire[0],currentNodeID))
else:
# add inputs to the _mixer alias
fileout.write("%s_mixer.addInput(%s,%s)\n" % (subwire[0],mixerkey,currentNodeID))
# left and right channel
fileout.write("%s_mixer.setAmp(%s,0,1)\n" % (subwire[0],mixerkey))
fileout.write("%s_mixer.setAmp(%s,1,1)\n" % (subwire[0],mixerkey))
mixerkey += 1
elif destinationNodeType == 'Multiply':
if subwire[2] == 'in':
fileout.write("%s.input = %s\n" % (subwire[0],currentNodeID))
if subwire[2] == 'mult':
fileout.write("%s.mul = %s\n" % (subwire[0],currentNodeID))
elif destinationNodeType == 'Add':
if subwire[2] == 'in':
fileout.write("%s.input = %s\n" % (subwire[0],currentNodeID))
if subwire[2] == 'add':
fileout.write("%s.add = %s\n" % (subwire[0],currentNodeID))
elif destinationNodeType == 'TableRec' and subwire[2] == 'trigger':
fileout.write("%s_trig = TrigFunc(%s,func_%s)\n" % (subwire[0],currentNodeID,subwire[0]))
elif destinationNodeType == 'SndTable' and subwire[2] == 'rec_in':
fileout.write("%s.table = %s\n" % (currentNodeID, subwire[0]))
else:
#[u'pyo2abb2adff7f916', 0, u'freq']
# the x of the y = myself
fileout.write("%s.%s = %s\n" % (subwire[0], subwire[2], currentNodeID))
wireID+=1;
fileout.write("\n")
fileout.write("while True:\n")
fileout.write("\tsleep(1)\n")
fileout.close()
# get "last modified" mtime from last modified file in "livepatches"
lasttime_prev = os.stat("./livepatches/" + getfiles("livepatches")[0]).st_mtime
while True:
lasttime = os.stat("./livepatches/" + getfiles("livepatches")[0]).st_mtime
if(lasttime!=lasttime_prev):
print "compiling new patch"
# read last edited file in livepatches subdir
thejson = open("./livepatches/" + getfiles("livepatches")[0],"r")
jsonstring = thejson.read()
createPyoScript(jsonstring)
# kill and run pyo script
print "running..."
try:
proc
except NameError:
pass
else:
proc.kill()
proc = subprocess.Popen("exec ./pyoscript.py",shell=True)
lasttime_prev = lasttime
time.sleep(1)