#!bin/python from __future__ import division, nested_scopes import cgi, os, sys, time, subprocess, logging, random from optparse import OptionParser import webcolors, colorsys from louie import dispatcher from twisted.internet import reactor, tksupport from twisted.web import xmlrpc, server, resource from rdflib import URIRef, Literal, RDF from Tix import * import Tix as tk import pickle import run_local from light9.Fadable import Fadable from light9.Submaster import Submasters, sub_maxes from light9.subclient import SubClient from light9 import dmxclient, showconfig, networking, prof from light9.uihelpers import toplevelat, bindkeys from light9.namespaces import L9 from light9.tkdnd import initTkdnd, dragSourceRegister from light9.rdfdb import clientsession from light9.rdfdb.syncedgraph import SyncedGraph from light9.rdfdb.patch import Patch from bcf2000 import BCF2000 nudge_keys = { 'up' : list('qwertyui'), 'down' : list('asdfghjk') } class DummySliders: def valueOut(self, name, value): pass def close(self): pass def reopen(self): pass class SubScale(Scale, Fadable): def __init__(self, master, *args, **kw): self.scale_var = kw.get('variable') or DoubleVar() kw.update({'variable' : self.scale_var, 'from' : 1, 'to' : 0, 'showvalue' : 0, 'sliderlength' : 15, 'res' : 0.01, 'width' : 40, 'troughcolor' : 'black', 'bg' : 'grey40', 'highlightthickness' : 1, 'bd' : 1, 'highlightcolor' : 'red', 'highlightbackground' : 'black', 'activebackground' : 'red'}) Scale.__init__(self, master, *args, **kw) Fadable.__init__(self, var=self.scale_var, wheel_step=0.05) self.draw_indicator_colors() def draw_indicator_colors(self): if self.scale_var.get() == 0: self['troughcolor'] = 'black' else: self['troughcolor'] = 'blue' class SubmasterBox(Frame): """ this object owns the level of the submaster (the rdf graph is the real authority) """ def __init__(self, master, sub, session): self.sub = sub self.session = session bg = sub.graph.value(sub.uri, L9.color, default='#000000') rgb = webcolors.hex_to_rgb(bg) hsv = colorsys.rgb_to_hsv(*[x/255 for x in rgb]) darkBg = webcolors.rgb_to_hex(tuple([x * 255 for x in colorsys.hsv_to_rgb( hsv[0], hsv[1], .3)])) Frame.__init__(self, master, bd=1, relief='raised', bg=bg) self.name = sub.name self.slider_var = DoubleVar() self.pauseTrace = False self.scale = SubScale(self, variable=self.slider_var, width=20) self.namelabel = Label(self, font="Arial 7", bg=darkBg, fg='white', pady=0) self.sub.graph.addHandler(self.updateName) self.namelabel.pack(side=TOP) levellabel = Label(self, textvariable=self.slider_var, font="Arial 7", bg='black', fg='white', pady=0) levellabel.pack(side=TOP) self.scale.pack(side=BOTTOM, expand=1, fill=BOTH) bindkeys(self, "", self.launch_subcomposer) for w in [self, self.namelabel, levellabel]: dragSourceRegister(w, 'copy', 'text/uri-list', sub.uri) self._slider_var_trace = self.slider_var.trace('w', self.slider_changed) sub.graph.addHandler(self.updateLevelFromGraph) # initial position # self.send_to_hw(sub.name, col + 1) # needs fix def cleanup(self): self.slider_var.trace_vdelete('w', self._slider_var_trace) def slider_changed(self, *args): self.scale.draw_indicator_colors() if self.pauseTrace: return self.updateGraphWithLevel(self.sub.uri, self.slider_var.get()) # dispatcher.send("level changed") # in progress ###self.send_levels() # use dispatcher? # needs fixing: plan is to use dispatcher or a method call to tell a hardware-mapping object who changed, and then it can make io if that's a current hw slider #if rowcount == self.current_row: # self.send_to_hw(sub.name, col + 1) def updateGraphWithLevel(self, uri, level): """in our per-session graph, we maintain SubSetting objects like this: ?session :subSetting [a :SubSetting; :sub ?s; :level ?l] """ # move to syncedgraph patchMapping self.sub.graph.patchMapping(context=self.session, subject=self.session, predicate=L9['subSetting'], nodeClass=L9['SubSetting'], keyPred=L9['sub'], newKey=uri, valuePred=L9['level'], newValue=Literal(level)) def updateLevelFromGraph(self): """read rdf level, write it to subbox.slider_var""" # move this to syncedgraph readMapping graph = self.sub.graph for setting in graph.objects(self.session, L9['subSetting']): if graph.value(setting, L9['sub']) == self.sub.uri: self.pauseTrace = True # don't bounce this update back to server try: self.slider_var.set(graph.value(setting, L9['level'])) finally: self.pauseTrace = False def updateName(self): self.namelabel.config(text=self.sub.graph.label(self.sub.uri)) def launch_subcomposer(self, *args): subprocess.Popen(["bin/subcomposer", "--no-geometry", self.name]) class KeyboardComposer(Frame, SubClient): def __init__(self, root, graph, session, hw_sliders=True): Frame.__init__(self, root, bg='black') SubClient.__init__(self) self.graph = graph self.session = session self.submasters = Submasters(graph) self.subbox = {} # sub uri : SubmasterBox self.slider_table = {} # coords : SubmasterBox self.rows = [] # this holds Tk Frames for each row self.current_row = 0 # should come from session graph self.use_hw_sliders = hw_sliders self.connect_to_hw(hw_sliders) self.make_key_hints() self.make_buttons() self.graph.addHandler(self.redraw_sliders) self.send_levels_loop() self.graph.addHandler(self.rowFromGraph) def make_buttons(self): self.buttonframe = Frame(self, bg='black') self.buttonframe.pack(side=BOTTOM) self.sliders_status_var = IntVar() self.sliders_status_var.set(self.use_hw_sliders) self.sliders_checkbutton = Checkbutton(self.buttonframe, text="Sliders", variable=self.sliders_status_var, command=lambda: self.toggle_slider_connectedness(), bg='black', fg='white') self.sliders_checkbutton.pack(side=LEFT) self.alltozerobutton = Button(self.buttonframe, text="All to Zero", command=self.alltozero, bg='black', fg='white') self.alltozerobutton.pack(side='left') self.save_stage_button = Button(self.buttonframe, text="Save", command=lambda: self.save_current_stage(self.sub_name.get()), bg='black', fg='white') self.save_stage_button.pack(side=LEFT) self.sub_name = Entry(self.buttonframe, bg='black', fg='white') self.sub_name.pack(side=LEFT) def redraw_sliders(self): self.graph.addHandler(self.draw_sliders) if len(self.rows): self.change_row(self.current_row) self.rows[self.current_row].focus() self.stop_frequent_update_time = 0 def onNewSub(self, sub): log.info("new %s", sub) self.graph.addHandler(self.draw_sliders) def onLostSub(self, subUri): log.info("lost %s", subUri) self.graph.addHandler(self.draw_sliders) def draw_sliders(self): for r in self.rows: r.destroy() self.rows = [] for b in self.subbox.values(): b.cleanup() self.subbox.clear() self.slider_table.clear() self.tk_focusFollowsMouse() rowcount = -1 col = 0 last_group = None # there are unlikely to be any subs at startup because we # probably haven't been called back with the graph data yet withgroups = sorted((self.graph.value(sub.uri, L9['group']), self.graph.value(sub.uri, L9['order']), sub) for sub in self.submasters.get_all_subs()) dispatcher.connect(self.onNewSub, "new submaster") dispatcher.connect(self.onLostSub, "lost submaster") log.info("withgroups %s", withgroups) for group, order, sub in withgroups: group = self.graph.value(sub.uri, L9['group']) if col == 0 or group != last_group: row = self.make_row() rowcount += 1 col = 0 subbox = SubmasterBox(row, sub, self.session) subbox.place(relx=col / 8, rely=0, relwidth=1 / 8, relheight=1) self.subbox[sub.uri] = self.slider_table[(rowcount, col)] = subbox self.setup_key_nudgers(subbox.scale) col = (col + 1) % 8 last_group = group def toggle_slider_connectedness(self): self.use_hw_sliders = not self.use_hw_sliders if self.use_hw_sliders: self.sliders.reopen() else: self.sliders.close() self.change_row(self.current_row) self.rows[self.current_row].focus() def connect_to_hw(self, hw_sliders): if hw_sliders: try: self.sliders = Sliders(self) except IOError: log.info("no hardware sliders") self.sliders = DummySliders() self.use_hw_sliders = False else: self.sliders = DummySliders() def make_key_hints(self): keyhintrow = Frame(self) col = 0 for upkey, downkey in zip(nudge_keys['up'], nudge_keys['down']): # what a hack! downkey = downkey.replace('semicolon', ';') upkey, downkey = (upkey.upper(), downkey.upper()) # another what a hack! keylabel = Label(keyhintrow, text='%s\n%s' % (upkey, downkey), width=1, font=('Arial', 10), bg='red', fg='white', anchor='c') keylabel.pack(side=LEFT, expand=1, fill=X) col += 1 keyhintrow.pack(fill=X, expand=0) self.keyhints = keyhintrow def setup_key_nudgers(self, tkobject): for d, keys in nudge_keys.items(): for key in keys: # lowercase makes full=0 keysym = "" % key tkobject.bind(keysym, \ lambda evt, num=keys.index(key), d=d: \ self.got_nudger(num, d)) # uppercase makes full=1 keysym = "" % key.upper() keysym = keysym.replace('SEMICOLON', 'colon') tkobject.bind(keysym, \ lambda evt, num=keys.index(key), d=d: \ self.got_nudger(num, d, full=1)) # Row changing: # Page dn, C-n, and ] do down # Page up, C-p, and ' do up for key in '

' \ '

'.split(): tkobject.bind(key, self.change_row_cb) def change_row_cb(self, event): diff = 1 if event.keysym in ('Prior', 'p', 'bracketright'): diff = -1 self.change_row(self.current_row + diff) def rowFromGraph(self): self.change_row(int(self.graph.value(self.session, L9['currentRow'], default=0)), fromGraph=True) def change_row(self, row, fromGraph=False): old_row = self.current_row self.current_row = row self.current_row = max(0, self.current_row) self.current_row = min(len(self.rows) - 1, self.current_row) try: row = self.rows[self.current_row] except IndexError: # if we're mid-load, this row might still appear soon. If # we changed interactively, the user is out of bounds and # needs to be brought back in if fromGraph: return raise self.unhighlight_row(old_row) self.highlight_row(self.current_row) self.keyhints.pack_configure(before=row) if not fromGraph: self.graph.patchObject(self.session, self.session, L9['currentRow'], Literal(self.current_row)) for col in range(1, 9): try: subbox = self.slider_table[(self.current_row, col - 1)] self.sliders.valueOut("button-upper%d" % col, True) except KeyError: # unfilled bottom row has holes (plus rows with incomplete # groups self.sliders.valueOut("button-upper%d" % col, False) self.sliders.valueOut("slider%d" % col, 0) continue self.send_to_hw(subbox.name, col) def got_nudger(self, number, direction, full=0): try: subbox = self.slider_table[(self.current_row, number)] except KeyError: return if direction == 'up': if full: subbox.scale.fade(1) else: subbox.scale.increase() else: if full: subbox.scale.fade(0) else: subbox.scale.decrease() def hw_slider_moved(self, col, value): value = int(value * 100) / 100 try: subbox = self.slider_table[(self.current_row, col)] except KeyError: return # no slider assigned at that column subbox.scale.set(value) def send_to_hw(self, subUri, hwNum): if isinstance(self.sliders, DummySliders): return v = round(127 * self.slider_vars[subUri].get()) chan = "slider%s" % hwNum # workaround for some rounding issue, where we receive one # value and then decide to send back a value that's one step # lower. -5 is a fallback for having no last value. hopefully # we won't really see it if abs(v - self.sliders.lastValue.get(chan, -5)) <= 1: return self.sliders.valueOut(chan, v) def make_row(self): row = Frame(self, bd=2, bg='black') row.pack(expand=1, fill=BOTH) self.setup_key_nudgers(row) self.rows.append(row) return row def highlight_row(self, row): row = self.rows[row] row['bg'] = 'red' def unhighlight_row(self, row): row = self.rows[row] row['bg'] = 'black' def get_levels(self): return dict([(uri, box.slider_var.get()) for uri, box in self.subbox.items()]) def get_levels_as_sub(self): scaledsubs = [self.submasters.get_sub_by_uri(sub) * level for sub, level in self.get_levels().items() if level > 0.0] maxes = sub_maxes(*scaledsubs) return maxes def save_current_stage(self, subname): log.info("saving current levels as %s", subname) sub = self.get_levels_as_sub() sub.name = subname sub.temporary = 0 sub.save() def send_frequent_updates(self): """called when we get a fade -- send events as quickly as possible""" if time.time() <= self.stop_frequent_update_time: self.send_levels() self.after(10, self.send_frequent_updates) def alltozero(self): for uri, subbox in self.subbox.items(): if subbox.scale.scale_var.get() != 0: subbox.scale.fade(value=0.0, length=0) # move to web lib def postArgGetter(request): """return a function that takes arg names and returns string values. Supports args encoded in the url or in postdata. No support for repeated args.""" # this is something nevow normally does for me request.content.seek(0) fields = cgi.FieldStorage(request.content, request.received_headers, environ={'REQUEST_METHOD': 'POST'}) def getArg(n): try: return request.args[n][0] except KeyError: return fields[n].value return getArg class LevelServerHttp(resource.Resource): isLeaf = True def __init__(self,name_to_subbox): self.name_to_subbox = name_to_subbox def render_POST(self, request): arg = postArgGetter(request) if request.path == '/fadesub': # fadesub?subname=scoop&level=0&secs=.2 self.name_to_subbox[arg('subname')].scale.fade( float(arg('level')), float(arg('secs'))) return "set %s to %s" % (arg('subname'), arg('level')) else: raise NotImplementedError(repr(request)) class Sliders(BCF2000): def __init__(self, kc): devices = ['/dev/snd/midiC1D0', '/dev/snd/midiC2D0', '/dev/snd/midiC3D0'] for dev in devices: try: BCF2000.__init__(self, dev=dev) except IOError, e: if dev is devices[-1]: raise else: break self.kc = kc def valueIn(self, name, value): kc = self.kc if name.startswith("slider"): kc.hw_slider_moved(int(name[6:]) - 1, value / 127) elif name.startswith("button-upper"): kc.change_row(kc.current_row) elif name.startswith("button-lower"): col = int(name[12:]) - 1 self.valueOut(name, 0) try: tkslider = kc.slider_table[(kc.current_row, col)] except KeyError: return slider_var = tkslider.slider_var if slider_var.get() == 1: slider_var.set(0) else: slider_var.set(1) elif name.startswith("button-corner"): button_num = int(name[13:]) - 1 if button_num == 1: diff = -1 elif button_num == 3: diff = 1 else: return kc.change_row(kc.current_row + diff) self.valueOut(name, 0) if __name__ == "__main__": parser = OptionParser() parser.add_option('--no-sliders', action='store_true', help="don't attach to hardware sliders") clientsession.add_option(parser) parser.add_option('-v', action='store_true', help="log info level") opts, args = parser.parse_args() logging.basicConfig(level=logging.INFO if opts.v else logging.WARN) log = logging.getLogger('keyboardcomposer') graph = SyncedGraph("keyboardcomposer") # i think this also needs delayed start (like subcomposer has), to have a valid graph # before setting any stuff from the ui root = Tk() initTkdnd(root.tk, 'tkdnd/trunk/') session = clientsession.getUri('keyboardcomposer', opts) tl = toplevelat("Keyboard Composer - %s" % opts.session, existingtoplevel=root, graph=graph, session=session) kc = KeyboardComposer(tl, graph, session, hw_sliders=not opts.no_sliders) kc.pack(fill=BOTH, expand=1) for helpline in ["Bindings: B3 mute; C-l edit levels in subcomposer"]: tk.Label(root,text=helpline, font="Helvetica -12 italic", anchor='w').pack(side='top',fill='x') if 0: # needs fixing, or maybe it's obsolete because other progs can just patch the rdf graph import twisted.internet try: reactor.listenTCP(networking.keyboardComposer.port, server.Site(LevelServerHttp(kc.name_to_subbox))) except twisted.internet.error.CannotListenError, e: log.warn("Can't (and won't!) start level server:") log.warn(e) root.protocol('WM_DELETE_WINDOW', reactor.stop) tksupport.install(root,ms=10) # prof.watchPoint("/usr/lib/python2.4/site-packages/rdflib-2.3.3-py2.4-linux-i686.egg/rdflib/Graph.py", 615) prof.run(reactor.run, profile=False)