#!/usr/bin/python """ todo: curveview should preserve more objects, for speed maybe """ from __future__ import division import xmlrpclib,time,socket,sys,textwrap,math,glob,random from bisect import bisect_left,bisect,bisect_right import Tkinter as tk from dispatch import dispatcher from twisted.internet import reactor,tksupport import twisted from twisted.web.xmlrpc import Proxy sys.path.append("../light8") import dmxclient sys.path.append("../../semprini") from lengther import wavelength import Submaster from TLUtility import make_attributes_from_args from zoomcontrol import Zoomcontrol class Curve: """curve does not know its name. see Curveset""" points = None # x-sorted list of (x,y) def __init__(self): self.points = [(0,0),(10,0)] def load(self,filename): self.points[:]=[] for line in file(filename): self.points.append(tuple([float(a) for a in line.split()])) self.points.sort() dispatcher.send("points changed",sender=self) def save(self,filename): if filename.endswith('-music') or filename.endswith('_music'): print "not saving music track" return f = file(filename,'w') for p in self.points: f.write("%s %s\n" % p) f.close() def eval(self,t): i = bisect_left(self.points,(t,None))-1 if self.points[i][0]>t: return self.points[i][1] if i>=len(self.points)-1: return self.points[i][1] p1,p2 = self.points[i],self.points[i+1] frac = (t-p1[0])/(p2[0]-p1[0]) y = p1[1]+(p2[1]-p1[1])*frac return y def insert_pt(self,new_pt): i = bisect(self.points,(new_pt[0],None)) self.points.insert(i,new_pt) __call__=eval class Curveview(tk.Canvas): def __init__(self,master,curve,**kw): self.curve=curve self._time = 0 tk.Canvas.__init__(self,master,width=10,height=10, relief='sunken',bd=1, closeenough=5,takefocus=1, **kw) self.selected_points=[] # idx of points being dragged self.update() # self.bind("",self.focus) dispatcher.connect(self.input_time,"input time") dispatcher.connect(self.update,"zoom changed") dispatcher.connect(self.update,"points changed",sender=self.curve) self.bind("",self.update) for x in range(1, 6): def add_kb_marker_point(evt, x=x): print "add_kb_marker_point", evt self.add_point((self.current_time(), (x - 1) / 4.0)) self.bind("" % x, add_kb_marker_point) for butnum,factor in (5, 1.5),(4, 1/1.5): self.bind(""%butnum, lambda ev,factor=factor: dispatcher.send("zoom about mouse", t=self.world_from_screen(ev.x,0)[0], factor=factor)) self.bind("",lambda ev: dispatcher.send("see time", t=self.current_time())) def current_time(self): return self._time def screen_from_world(self,p): start,end = self.zoom ht = self.winfo_height() return (p[0]-start)/(end-start)*self.winfo_width(), (ht-5)-p[1]*(ht-10) def world_from_screen(self,x,y): start,end = self.zoom ht = self.winfo_height() return x/self.winfo_width()*(end-start)+start, ((ht-5)-y)/(ht-10) def input_time(self,val): t=val pts = self.screen_from_world((val,0))+self.screen_from_world((val,1)) self.delete('timecursor') self.create_line(*pts,**dict(width=2,fill='red',tags=('timecursor',))) self._time = t def update(self,*args): self.zoom = dispatcher.send("zoom area")[0][1] cp = self.curve.points visible_x = (self.world_from_screen(0,0)[0], self.world_from_screen(self.winfo_width(),0)[0]) visleftidx = max(0,bisect_left(cp,(visible_x[0],None))-1) visrightidx = min(len(cp)-1,bisect_left(cp,(visible_x[1],None))+1) visible_points = cp[visleftidx:visrightidx+1] visible_idxs = range(visleftidx,visrightidx+1) self.delete('curve') self._draw_markers(visible_x) self._draw_line(visible_idxs,visible_points) self.dots = {} # idx : canvas rectangle if len(visible_points)<50: self._draw_handle_points(visible_idxs,visible_points) def _draw_markers(self,visible_x): mark = self._draw_one_marker mark(0,"0") t1,t2=visible_x if t2-t1<30: for t in range(int(t1),int(t2)+1): mark(t,str(t)) mark(-4,"-4") endtimes = dispatcher.send("get max time") if endtimes: endtime = endtimes[0][1] mark(endtime,"end %.1f"%endtime) mark(endtime+10,"post %.1f"%(endtime+10)) def _draw_one_marker(self,t,label): x = self.screen_from_world((t,0))[0] self.create_line(x,self.winfo_height(),x,self.winfo_height()-20, tags=('curve',)) self.create_text(x,self.winfo_height()-20,text=label,anchor='s', tags=('curve',)) def _draw_line(self,visible_idxs,visible_points): linepts=[] step=1 linewidth=2 if len(visible_points)>800: step = int(len(visible_points)/800) linewidth=1 for p in visible_points[::step]: linepts.extend(self.screen_from_world(p)) if len(linepts)<4: return line = self.create_line(*linepts,**dict(width=linewidth,tags='curve')) # canvas doesnt have keyboard focus, so i can't easily change the # cursor when ctrl is pressed # def curs(ev): # print ev.state # self.bind("",curs) # self.bind("",lambda ev: curs(0)) self.tag_bind(line,"",self.newpointatmouse) def _draw_handle_points(self,visible_idxs,visible_points): for i,p in zip(visible_idxs,visible_points): rad=3 worldp = p p = self.screen_from_world(p) dot = self.create_rectangle(p[0]-rad,p[1]-rad,p[0]+rad,p[1]+rad, outline='black',fill='blue', tags=('curve','point', 'handle%d' % i)) if worldp[1] == 0: rad += 3 dot2 = self.create_oval(p[0]-rad,p[1]-rad, p[0]+rad,p[1]+rad, outline='darkgreen', tags=('curve','point', 'handle%d' % i)) self.tag_bind('handle%d' % i,"", lambda ev,i=i: self.dotpress(ev,i)) self.bind("", lambda ev,i=i: self.dotmotion(ev,i)) self.bind("", lambda ev,i=i: self.dotrelease(ev,i)) self.dots[i]=dot self.highlight_selected_dots() def newpointatmouse(self, ev): p = self.world_from_screen(ev.x,ev.y) x, y = p y = max(0, y) y = min(1, y) p = x, y self.add_point(p) def add_point(self, p): self.unselect() self.curve.insert_pt(p) self.update() def highlight_selected_dots(self): for i,d in self.dots.items(): if i in self.selected_points: self.itemconfigure(d,fill='red') else: self.itemconfigure(d,fill='blue') def dotpress(self,ev,dotidx): self.selected_points=[dotidx] self.highlight_selected_dots() def dotmotion(self,ev,dotidx): cp = self.curve.points moved=0 for idx in self.selected_points: x,y = self.world_from_screen(ev.x,ev.y) y = max(0,min(1,y)) if idx>0 and x<=cp[idx-1][0]: continue if idx=cp[idx+1][0]: continue moved=1 cp[idx] = (x,y) if moved: self.update() def unselect(self): self.selected_points=[] self.highlight_selected_dots() def dotrelease(self,ev,dotidx): self.unselect() class Curveset: curves = None # curvename : curve def __init__(self): self.curves = {} def load(self,basename): """find all files that look like basename-curvename and add curves with their contents""" for filename in glob.glob("%s-*"%basename): curvename = filename[filename.find('-')+1:] c=Curve() c.load(filename) curvename = curvename.replace('-','_') self.add_curve(curvename,c) def save(self,basename): """writes a file for each curve with a name like basename-curvename""" for name,cur in self.curves.items(): cur.save("%s-%s" % (basename,name)) def add_curve(self,name,curve): self.curves[name] = curve dispatcher.send("add_curve",sender=self,name=name) def globalsdict(self): return self.curves.copy() def new_curve(self,name): if name=="": print "no name given" return while name in self.curves: name=name+"-1" self.add_curve(name,Curve()) class Curvesetview(tk.Frame): curves = None # curvename : Curveview def __init__(self,master,curveset,**kw): self.curves = {} self.curveset = curveset tk.Frame.__init__(self,master,**kw) f = tk.Frame(self,relief='raised',bd=1) f.pack(side='top',fill='x') tk.Button(f,text="new curve named:", command=lambda: self.curveset.new_curve(self.newcurvename.get())).pack(side='left') self.newcurvename = tk.StringVar() tk.Entry(f,textvariable=self.newcurvename).pack(side='left', fill='x',exp=1) dispatcher.connect(self.add_curve,"add_curve",sender=self.curveset) def add_curve(self,name): f = tk.Frame(self,relief='raised',bd=1) f.pack(side='top',fill='both',exp=1) tk.Label(f,text="curve %r"%name,width=15).pack(side='left') cv = Curveview(f,self.curveset.curves[name]) cv.pack(side='right',fill='both',exp=1) self.curves[name] = cv class Music: def __init__(self): self.player=None # xmlrpc Proxy to player self.recenttime=0 def current_time(self): """return deferred which gets called with the current time""" if self.player is None: self.player = Proxy("http://miles:8040") # d = self.player.callRemote("songlength") # d.addCallback(lambda l: dispatcher.send("max time",maxtime=l)) # d = self.player.callRemote("songname") # d.addCallback(lambda n: dispatcher.send("songname",name=n)) d = self.player.callRemote('gettime') def sendtime(t): dispatcher.send("input time",val=t) return t # pass along to the real receiver def error(e): pass#self.player=None d.addCallback(sendtime) return d class Subexpr: curveset = None def __init__(self,curveset,expr=""): self.curveset = curveset self.lasteval = None self.expr=expr self._smooth_random_items = [random.random() for x in range(100)] def eval(self,t): if self.expr=="": dispatcher.send("expr_error",sender=self,exc="no expr, using 0") return 0 glo = self.curveset.globalsdict() glo['t'] = t glo['nsin'] = lambda x: (math.sin(x * (2 * math.pi)) + 1) / 2 glo['ncos'] = lambda x: (math.cos(x * (2 * math.pi)) + 1) / 2 glo['within'] = lambda a, b: a < t < b glo['bef'] = lambda x: t < x glo['aft'] = lambda x: x < t glo['smoove'] = lambda x: -2 * (x ** 3) + 3 * (x ** 2) def smooth_random(speed=1): """1 = new stuff each second, <1 is slower, fade-ier""" x = (t * speed) % len(self._smooth_random_items) x1 = int(x) x2 = (int(x) + 1) % len(self._smooth_random_items) y1 = self._smooth_random_items[x1] y2 = self._smooth_random_items[x2] return y1 + (y2 - y1) * ((x - x1)) def notch_random(speed=1): """1 = new stuff each second, <1 is slower, notch-ier""" x = (t * speed) % len(self._smooth_random_items) x1 = int(x) y1 = self._smooth_random_items[x1] return y1 glo['noise'] = smooth_random glo['notch'] = notch_random try: self.lasteval = eval(self.expr,glo) except Exception,e: dispatcher.send("expr_error",sender=self,exc=e) else: dispatcher.send("expr_error",sender=self,exc="ok") return self.lasteval def expr(): doc = "python expression for level as a function of t, using curves" def fget(self): return self._expr def fset(self, value): self._expr = value dispatcher("expr_changed",sender=self) return locals() expr = property(**expr()) class Subexprview(tk.Frame): def __init__(self,master,se,**kw): self.subexpr=se tk.Frame.__init__(self,master,**kw) self.evar = tk.StringVar() e = self.ent = tk.Entry(master,textvariable=self.evar) e.pack(side='left',fill='both',exp=1) self.expr_changed() self.evar.trace_variable('w',self.evar_changed) dispatcher.connect(self.expr_changed,"expr_changed", sender=self.subexpr) self.error = tk.Label(master) self.error.pack(side='left') dispatcher.connect(lambda exc: self.error.config(text=str(exc)), "expr_error",sender=self.subexpr,weak=0) def expr_changed(self): if self.subexpr.expr!=self.evar.get(): self.evar.set(self.subexpr.expr) def evar_changed(self,*args): self.subexpr.expr = self.evar.get() class Subterm: """one Submaster and its Subexpr""" def __init__(self,submaster,subexpr): make_attributes_from_args('submaster','subexpr') def scaled(self,t): return self.submaster * self.subexpr.eval(t) class Subtermview(tk.Frame): def __init__(self,master,st,**kw): self.subterm = st tk.Frame.__init__(self,master,bd=1,relief='raised',**kw) l = tk.Label(self,text="sub %r" % self.subterm.submaster.name) l.pack(side='left') sev=Subexprview(self,self.subterm.subexpr) sev.pack(side='left',fill='both',exp=1) class Output: lastsendtime=0 lastsendlevs=None def __init__(self,subterms): make_attributes_from_args('subterms') def send_dmx(self,t): scaledsubs=[] for st in self.subterms: scl = st.scaled(t) scaledsubs.append(scl) out = Submaster.sub_maxes(*scaledsubs) levs = out.get_levels() now=time.time() if now-self.lastsendtime>5 or levs!=self.lastsendlevs: dispatcher.send("output levels",val=levs) dmxclient.outputlevels(out.get_dmx_list(), twisted=1,clientid='curvecalc') self.lastsendtime = now self.lastsendlevs = levs def create_status_lines(master): for signame,textfilter in [ ('input time',lambda t: "%.2fs"%t), ('output levels', lambda levels: textwrap.fill("; ".join(["%s:%.2f"%(n,v) for n,v in levels.items()[:5] if v>0]),70)), ('update period',lambda t: "%.1fms"%(t*1000)), ]: l = tk.Label(master,anchor='w',justify='left') l.pack(side='top',fill='x') dispatcher.connect(lambda val,l=l,sn=signame,tf=textfilter: l.config(text=sn+": "+tf(val)), signame,weak=0) def savesubterms(filename,subterms): s="" for st in subterms: s=s+"%s %s\n" % (st.submaster.name,st.subexpr.expr) file(filename,'w').write(s) class SubtermSetView(tk.Frame): def __init__(self, master, *args, **kw): tk.Frame.__init__(self, master, *args, **kw) self.cur_row = 0 self.cur_col = 0 self.ncols = 2 def add_subtermview(self, stv): stv.grid(row=self.cur_row, column=self.cur_col, sticky='news') self.columnconfigure(self.cur_col, weight=1) self.cur_col += 1 self.cur_col %= self.ncols if self.cur_col == 0: self.cur_row += 1 def add_one_subterm(subname, curveset, subterms, root, expr=''): term = Subterm(Submaster.Submaster(subname), Subexpr(curveset,expr)) subterms.append(term) stv=Subtermview(ssv,term) # stv.pack(side='top',fill='x') global ssv ssv.add_subtermview(stv) return term def subterm_adder(master, curveset, subterms, root): f=tk.Frame(master,relief='raised',bd=1) newname = tk.StringVar() def add_cmd(): add_one_subterm(newname.get(), curveset, subterms, root, '') tk.Button(f,text="new subterm named:", command=add_cmd).pack(side='left') tk.Entry(f,textvariable=newname).pack(side='left',fill='x',exp=1) return f ####################################################################### root=tk.Tk() root.tk_setPalette("gray50") root.wm_geometry("1120x850") root.tk_focusFollowsMouse() music=Music() zc = Zoomcontrol(root) zc.pack(side='top',fill='x') curveset = Curveset() csv = Curvesetview(root,curveset) csv.pack(side='top',fill='both',exp=1) ssv = SubtermSetView(root) ssv.pack(side='top', fill='x') song = sys.argv[1] root.title("Curemaster 2000MX - %s" % song) musicfilename = "/my/music/projects/sharlyn2004/%s.wav" % song maxtime = wavelength(musicfilename) dispatcher.send("max time",maxtime=maxtime) dispatcher.connect(lambda: maxtime, "get max time",weak=0) curveset.load(basename="curves/"+song) subterms = [] subterm_adder(root, curveset, subterms, root).pack(side='top',fill='x') for line in file("subterms/"+song): subname,expr = line.strip().split(" ",1) term = add_one_subterm(subname, curveset, subterms, root, expr) # stv=Subtermview(root,term) # stv.pack(side='top',fill='x') out = Output(subterms) def savekey(*args): print "saving",song savesubterms("subterms/"+song,subterms) curveset.save(basename="curves/"+song) print "saved" root.bind("",savekey) create_status_lines(root) recent_t=[] later = None def update(): global later d = music.current_time() d.addCallback(update2) d.addErrback(updateerr) def updateerr(e): global later print "err",e if later and not later.cancelled and not later.called: later.cancel() later = reactor.callLater(1,update) def update2(t): global recent_t,later if later and not later.cancelled and not later.called: later.cancel() later = reactor.callLater(.01,update) recent_t = recent_t[-50:]+[t] period = (recent_t[-1]-recent_t[0])/len(recent_t) dispatcher.send("update period",val=period) out.send_dmx(t) update() #def logprint(msg): # print "log",msg #twisted.python.log.addObserver(logprint) root.bind("",lambda ev: reactor.stop) root.bind("",lambda ev: reactor.stop) root.protocol('WM_DELETE_WINDOW', reactor.stop) tksupport.install(root,ms=10) if 0: sys.path.append("/home/drewp/projects/editor/pour") from utils import runstats runstats("reactor.run()") else: reactor.run()