Exemple #1
0
    def __init__(self, editor):
        frame = editor.create_tab(self.NAME, self.TAB_FILE)
        frame.config(background=factory.bg())
        canvas = factory.canvas(frame, 1000, 700, self.IMAGE_FILE)
        canvas.pack()
        self.canvas = canvas
        self.editor = editor
        TkSubEditor.__init__(self, canvas, editor, self.NAME)
        editor.add_child_editor(self.NAME, self)
        y0 = 75
        y1 = y0 + 180
        x0 = 75
        xlow = x0
        xcenter = xlow + 54
        xhigh = xcenter + 100

        def gain_slider(param, x):
            range_ = (-12, 12)
            s = cf.linear_slider(canvas, param, editor, range_=range_)
            self.add_control(param, s)
            s.widget().place(x=x, y=y1, height=125)
            return s

        def frequency_slider(param, x):
            s = ExpSlider(canvas, param, editor, range_=20000, degree=3)
            self.add_control(param, s)
            s.layout((x, y0), checkbutton_offset=None)
            return s

        frequency_slider("fLow", xlow)
        frequency_slider("fHigh", xhigh)
        bwscales = ((0.333, "1/3"), (0.667, "2/3"), (1.000, "1"),
                    (1.333, "1 1/3"), (1.667, "1 2/3"), (2.00, "2"))
        param = "bwScale"
        m = MSB(canvas, param, editor, len(bwscales))
        for i, p in enumerate(bwscales):
            v, txt = p
            if v >= 1:
                cfill = "green"
            else:
                cfill = "red"
            d = {
                "fill": "black",
                "foreground": cfill,
                "outline": "gray",
                "value": v,
                "text": txt
            }
            m.define_aspect(i, v, d)
        m.layout((xcenter, y0 + 50))
        m.update_aspect()
        gain_slider("gainLow", xlow)
        gain_slider("gainCenter", xcenter + 23)
        gain_slider("gainHigh", xhigh)
Exemple #2
0
 def ratio_msb(param,x,y):
     count = len(HARMONICS)
     msb = MSB(canvas,param,editor,count)
     for i,p in enumerate(HARMONICS):
         v,text = p
         d = _msb_aspect(v,text)
         msb.define_aspect(i,v,d)
     self.add_control(param,msb)
     msb.layout((x,y))
     msb.update_aspect()
     return msb
Exemple #3
0
 def msb_keybreak(self,param,x,y):
     count = len(acon.KEY_BREAKPOINTS)
     msb = MSB(self.canvas,param,self.editor,count)
     for i,val in enumerate(acon.KEY_BREAKPOINTS):
         d = {"fill" : acon.CFILL,
              "foreground" : acon.CFOREGROUND,
              "outline" : acon.COUTLINE,
              "value" : val,
              "text" : str(val)}
         msb.define_aspect(i,val,d)
     self.add_control(param,msb)
     msb.layout((x,y))
     msb.update_aspect()
     return msb
Exemple #4
0
 def msb(param,x):
     b = MSB(canvas,param,editor,len(FREQ_RATIOS))
     self.add_control(param,b)
     b.layout((x,y_msb))
     for i,r in enumerate(FREQ_RATIOS):
         value = float(r[0])
         txt = r[1]
         adict = {'value' : value,
                  'text' : txt,
                  'fill' : '#13302d',
                  'foreground' : '#8f94a9',
                  'outline' : '#8f94a9'}
         b.define_aspect(i,value,adict)
     b.update_aspect()
Exemple #5
0
 def msb_keyscale(self,param,x,y):
     count = len(acon.KEYSCALES)
     msb = MSB(self.canvas,param,self.editor,count)
     for i,value in enumerate(acon.KEYSCALES):
         d = {"fill" : acon.CFILL,
              "foreground" : acon.CFOREGROUND,
              "outline" : acon.COUTLINE,
              "value" : value,
              "text" : "%+d" % value}
         msb.define_aspect(i,value,d)
     self.add_control(param,msb)
     msb.layout((x,y))
     msb.update_aspect()
     return msb
Exemple #6
0
 def msb_keybreak(param,x,y):
     count = len(KEYBREAK)
     msb = MSB(canvas,param,editor,count)
     for i,s in enumerate(KEYBREAK):
         d = {"fill" : CFILL,
              "foreground" : CFOREGROUND,
              "outline" : COUTLINE,
              "value" : s,
              "text" : "%d" % s}
         msb.define_aspect(i,s,d)
     self.add_control(param,msb)
     msb.layout((x,y))
     msb.update_aspect()
     return msb
Exemple #7
0
 def msb_lfo_ratio(self,param,x,y):
     count = len(acon.LFO_RATIOS)
     msb = MSB(self.canvas,param,self.editor,count)
     for i in range(count):
         val,txt = acon.LFO_RATIOS[i]
         d = {"fill":acon.CFILL,
              "foreground":acon.CFOREGROUND,
              "outline":acon.COUTLINE,
              "value":val,
              "text":txt}
         msb.define_aspect(i,val,d)
     self.add_control(param,msb)
     msb.layout((x,y))
     msb.update_aspect()
     return msb
Exemple #8
0
 def msb_mod_scale(self,param,x,y):
     msb = MSB(self.canvas,param,self.editor,acon.MOD_RANGE_COUNT)
     for i in range(acon.MOD_RANGE_COUNT):
         j = i+1
         value = 10**i
         d = {"fill" : acon.CFILL,
              "foreground" : acon.CFOREGROUND,
              "outline" : acon.COUTLINE,
              "value" : value,
              "text" : "x%d" % j}
         msb.define_aspect(i,value,d)
     self.add_control(param,msb)
     msb.layout((x,y))
     msb.update_aspect()
     return msb
Exemple #9
0
 def _init_paste_button(self):
     msb = MSB(self.canvas, '', None, 1)
     a0 = self._msb_aspect("Paste")
     msb.define_aspect(0,0,a0)
     x,y = self.xi0+192, self.y1-50
     msb.layout((x,y))
     msb.update_aspect()
     def paste_callback(*_):
         for k in self.clipboard.keys():
             p = self.params[k]
             v = self.clipboard[k]
             self.set_synth_value(p,v)
         self.sync_ui()
         self.status("Envelope pasted from clipboard")
     msb.client_callback = paste_callback
Exemple #10
0
 def msb_modscale(param,x,y):
     count = len(MODSCALES)
     msb = MSB(canvas,param,editor,count)
     for i in MODSCALES:
         j = i+1
         value = 10**i
         d = {"fill" : CFILL,
              "foreground" : CFOREGROUND,
              "outline" : COUTLINE,
              "value" : value,
              "text" : "x%d" % j}
         msb.define_aspect(i,value,d)
     self.add_control(param,msb)
     msb.layout((x,y))
     msb.update_aspect()
Exemple #11
0
 def _init_copy_button(self):
     msb = MSB(self.canvas, '', None, 1)
     a0 = self._msb_aspect("Copy")
     msb.define_aspect(0,0,a0)
     x,y = self.xi0+128, self.y1-50
     msb.layout((x,y))
     msb.update_aspect()
     def copy_callback(*_):
         program = self.synth.bank()[None]
         for k in self.clipboard.keys():
             p = self.params[k]
             v = program[p]
             self.clipboard[k] = v
         self.status("Envelope copied to clipboard")
     msb.client_callback=copy_callback
Exemple #12
0
 def msb_keyscale(param, x, y):
     count = len(KEYSCALES)
     msb = MSB(canvas, param, editor, count)
     for i, s in enumerate(KEYSCALES):
         d = {
             "fill": CFILL,
             "foreground": CFOREGROUND,
             "outline": COUTLINE,
             "value": s,
             "text": "%+d" % s
         }
         msb.define_aspect(i, s, d)
     self.add_control(param, msb)
     msb.layout((x, y))
     msb.update_aspect()
     return msb
Exemple #13
0
 def msb(param, x):
     b = MSB(canvas, param, editor, len(FREQ_RATIOS))
     self.add_control(param, b)
     b.layout((x, y_msb))
     for i, r in enumerate(FREQ_RATIOS):
         value = float(r[0])
         txt = r[1]
         adict = {
             'value': value,
             'text': txt,
             'fill': '#13302d',
             'foreground': '#8f94a9',
             'outline': '#8f94a9'
         }
         b.define_aspect(i, value, adict)
     b.update_aspect()
Exemple #14
0
 def _init_zoom_button(self):
     msb = MSB(self.canvas, "", None, 3)
     a0 = self._msb_aspect("X1")
     a1 = self._msb_aspect("X10")
     a2 = self._msb_aspect("X100")
     msb.define_aspect(0, 1, a0)
     msb.define_aspect(1, 10, a1)
     msb.define_aspect(2, 100, a2)
     x, y = self.xi0 + 256, self.y1-50
     msb.layout((x,y))
     msb.value(1)
     msb.update_aspect()
     def zoom_callback(*_):
         self.zoom = msb.value()
         self.sync_ui()
     msb.client_callback = zoom_callback
Exemple #15
0
 def msb_keybreak(self, param, x, y):
     count = len(acon.KEY_BREAKPOINTS)
     msb = MSB(self.canvas, param, self.editor, count)
     for i, val in enumerate(acon.KEY_BREAKPOINTS):
         d = {
             "fill": acon.CFILL,
             "foreground": acon.CFOREGROUND,
             "outline": acon.COUTLINE,
             "value": val,
             "text": str(val)
         }
         msb.define_aspect(i, val, d)
     self.add_control(param, msb)
     msb.layout((x, y))
     msb.update_aspect()
     return msb
Exemple #16
0
 def msb_keyscale(self, param, x, y):
     count = len(acon.KEYSCALES)
     msb = MSB(self.canvas, param, self.editor, count)
     for i, value in enumerate(acon.KEYSCALES):
         d = {
             "fill": acon.CFILL,
             "foreground": acon.CFOREGROUND,
             "outline": acon.COUTLINE,
             "value": value,
             "text": "%+d" % value
         }
         msb.define_aspect(i, value, d)
     self.add_control(param, msb)
     msb.layout((x, y))
     msb.update_aspect()
     return msb
Exemple #17
0
 def msb_ratio(n,x):
     param = "lfo%d_ratio" % n
     count = len(LFO_RATIOS)
     msb = MSB(canvas,param,editor,count)
     for i,pair in enumerate(LFO_RATIOS):
         value,txt = pair
         d = {"fill" : CFILL,
              "foreground" : CFOREGROUND,
              "outline" : COUTLINE,
              "value" : value,
              "text" : txt}
         msb.define_aspect(i,value,d)
     self.add_control(param, msb)
     msb.layout((x,y_msb))
     msb.update_aspect()
     return msb
Exemple #18
0
 def msb_mod_scale(self, param, x, y):
     msb = MSB(self.canvas, param, self.editor, acon.MOD_RANGE_COUNT)
     for i in range(acon.MOD_RANGE_COUNT):
         j = i + 1
         value = 10**i
         d = {
             "fill": acon.CFILL,
             "foreground": acon.CFOREGROUND,
             "outline": acon.COUTLINE,
             "value": value,
             "text": "x%d" % j
         }
         msb.define_aspect(i, value, d)
     self.add_control(param, msb)
     msb.layout((x, y))
     msb.update_aspect()
     return msb
Exemple #19
0
    def _init_copy_button(self):
        msb = MSB(self.canvas, '', None, 1)
        a0 = self._msb_aspect("Copy")
        msb.define_aspect(0, 0, a0)
        x, y = self.xi0 + 128, self.y1 - 50
        msb.layout((x, y))
        msb.update_aspect()

        def copy_callback(*_):
            program = self.synth.bank()[None]
            for k in self.clipboard.keys():
                p = self.params[k]
                v = program[p]
                self.clipboard[k] = v
            self.status("Envelope copied to clipboard")

        msb.client_callback = copy_callback
Exemple #20
0
 def mute_button(param, x):
     b = MSB(canvas,param,self.editor,2)
     aoff = {'fill' : 'black',
             'foreground' : 'gray',
             'outline' : 'gray',
             'text' : 'Mute'}
     aon = {'fill' : '#002e00',
            'foreground' : 'white',
            'outline' : '#096c00',
            'text' : 'Mute'}
     b.define_aspect(0, 0, aoff)
     b.define_aspect(1, 1, aon)
     self.add_control(param,b)
     x = x + 8
     b.layout(offset = (x,y_mute))
     b.update_aspect()
     return b
Exemple #21
0
    def _init_paste_button(self):
        msb = MSB(self.canvas, '', None, 1)
        a0 = self._msb_aspect("Paste")
        msb.define_aspect(0, 0, a0)
        x, y = self.xi0 + 192, self.y1 - 50
        msb.layout((x, y))
        msb.update_aspect()

        def paste_callback(*_):
            for k in self.clipboard.keys():
                p = self.params[k]
                v = self.clipboard[k]
                self.set_synth_value(p, v)
            self.sync_ui()
            self.status("Envelope pasted from clipboard")

        msb.client_callback = paste_callback
Exemple #22
0
 def msb_modscale(param, x, y):
     count = len(MODSCALES)
     msb = MSB(canvas, param, editor, count)
     for i in MODSCALES:
         j = i + 1
         value = 10**i
         d = {
             "fill": CFILL,
             "foreground": CFOREGROUND,
             "outline": COUTLINE,
             "value": value,
             "text": "x%d" % j
         }
         msb.define_aspect(i, value, d)
     self.add_control(param, msb)
     msb.layout((x, y))
     msb.update_aspect()
Exemple #23
0
 def msb_lfo_ratio(self, param, x, y):
     count = len(acon.LFO_RATIOS)
     msb = MSB(self.canvas, param, self.editor, count)
     for i in range(count):
         val, txt = acon.LFO_RATIOS[i]
         d = {
             "fill": acon.CFILL,
             "foreground": acon.CFOREGROUND,
             "outline": acon.COUTLINE,
             "value": val,
             "text": txt
         }
         msb.define_aspect(i, val, d)
     self.add_control(param, msb)
     msb.layout((x, y))
     msb.update_aspect()
     return msb
Exemple #24
0
 def _init_init_button(self):
     msb = MSB(self.canvas, '', None, 1)
     a0 = self._msb_aspect("Init")
     msb.define_aspect(0,0,a0)
     x,y = self.xi0+64, self.y1-50
     msb.layout((x,y))
     msb.update_aspect()
     def init_callback(*_):
         self.set_synth_value(self.params['attack'], 0.0)
         self.set_synth_value(self.params['decay1'], 0.0)
         self.set_synth_value(self.params['decay2'], 0.0)
         self.set_synth_value(self.params['release'], 0.0)
         self.set_synth_value(self.params['breakpoint'], 1.0)
         self.set_synth_value(self.params['sustain'], 1.0)
         self.set_synth_value(self.params['gate-mode'], 0)
         self.sync_ui()
         self.status("Reset envelope")
     msb.client_callback = init_callback 
Exemple #25
0
    def _init_zoom_button(self):
        msb = MSB(self.canvas, "", None, 3)
        a0 = self._msb_aspect("X1")
        a1 = self._msb_aspect("X10")
        a2 = self._msb_aspect("X100")
        msb.define_aspect(0, 1, a0)
        msb.define_aspect(1, 10, a1)
        msb.define_aspect(2, 100, a2)
        x, y = self.xi0 + 256, self.y1 - 50
        msb.layout((x, y))
        msb.value(1)
        msb.update_aspect()

        def zoom_callback(*_):
            self.zoom = msb.value()
            self.sync_ui()

        msb.client_callback = zoom_callback
Exemple #26
0
 def msb_ratio(n, x):
     param = "lfo%d_ratio" % n
     count = len(LFO_RATIOS)
     msb = MSB(canvas, param, editor, count)
     for i, pair in enumerate(LFO_RATIOS):
         value, txt = pair
         d = {
             "fill": CFILL,
             "foreground": CFOREGROUND,
             "outline": COUTLINE,
             "value": value,
             "text": txt
         }
         msb.define_aspect(i, value, d)
     self.add_control(param, msb)
     msb.layout((x, y_msb))
     msb.update_aspect()
     return msb
Exemple #27
0
 def mute_button(param, x):
     b = MSB(canvas,param,self.editor,2)
     aoff = {'fill' : 'black',
             'foreground' : 'gray',
             'outline' : 'gray',
             'text' : 'Mute'}
     aon = {'fill' : '#002e00',
            'foreground' : 'white',
            'outline' : '#096c00',
            'text' : 'Mute'}
     b.define_aspect(0, 0, aoff)
     b.define_aspect(1, 1, aon)
     self.add_control(param,b)
     x = x + 8
     y = y_slider + slider_height + 40
     b.layout(offset = (x,y))
     b.update_aspect()
     return b
Exemple #28
0
    def _init_init_button(self):
        msb = MSB(self.canvas, '', None, 1)
        a0 = self._msb_aspect("Init")
        msb.define_aspect(0, 0, a0)
        x, y = self.xi0 + 64, self.y1 - 50
        msb.layout((x, y))
        msb.update_aspect()

        def init_callback(*_):
            self.set_synth_value(self.params['attack'], 0.0)
            self.set_synth_value(self.params['decay1'], 0.0)
            self.set_synth_value(self.params['decay2'], 0.0)
            self.set_synth_value(self.params['release'], 0.0)
            self.set_synth_value(self.params['breakpoint'], 1.0)
            self.set_synth_value(self.params['sustain'], 1.0)
            self.set_synth_value(self.params['gate-mode'], 0)
            self.sync_ui()
            self.status("Reset envelope")

        msb.client_callback = init_callback
Exemple #29
0
    def __init__(self, editor):
        frame = editor.create_tab(self.NAME,self.TAB_FILE)
        frame.config(background=factory.bg())
        canvas = factory.canvas(frame, 1000, 700, self.IMAGE_FILE)
        canvas.pack()
        self.canvas = canvas
        self.editor = editor
        TkSubEditor.__init__(self, canvas, editor, self.NAME)
        editor.add_child_editor(self.NAME, self)

        cfill = "black"
        cforeground="#c79fa1"
        coutline="blue"
        csfill = "#005c56"
        csforeground = "white"
        
        y0 = 0
        ysliders = y0+192
        ywave = y0+128
        yclock = ywave
        yfilter = yclock
        yrsenable = y0+200
        
        x0 = 75
        xgain = x0+60
        xwave = x0+143
        xclock = xwave+100
        xfilter = xclock+100
        xefx = xgain+395
        xdry = xgain+455

        def volume_slider(param,x,y):
            s = cf.volume_slider(canvas,param,editor)
            self.add_control(param,s)
            s.widget().place(x=x,y=y)
            return s

        def linear_slider(param,range_,x,y):
            s = cf.linear_slider(canvas,param,editor,range_=range_)
            self.add_control(param,s)
            s.widget().place(x=x,y=y)
            return s

        linear_slider("gain",(0,8),xgain,ysliders)
        
        msb_wave = MSB(canvas,"wave",editor, 5)
        for i,tx in enumerate(("Off","Soft","Clip","Fold","Wrap")):
            d = {"fill" : cfill,
                 "foreground" : cforeground,
                 "outline" : coutline,
                 "value" : i,
                 "text" : tx}
            msb_wave.define_aspect(i,i,d)
        msb_wave.layout((xwave,ywave))
        msb_wave.update_aspect()

        msb_clock = MSB(canvas,"clockFreq",editor,len(CLOCK_FREQS))
        for i,freq in enumerate(CLOCK_FREQS):
            ad = {"fill" : cfill,
                  "foreground" : cforeground,
                  "outline" : coutline,
                  "text" : str(freq),
                  "value" : freq}
            msb_clock.define_aspect(i,freq,ad)
        self.add_control("clockFreq",msb_clock)
        msb_clock.layout((xclock,yclock))
        msb_clock.update_aspect()

        msb_filter = MSB(canvas,"low",editor, len(LP_FREQS))
        for i,freq in enumerate(LP_FREQS):
            ad = {"fill" : cfill,
                  "foreground" : cforeground,
                  "outline" : coutline,
                  "text" : str(freq),
                  "value" : freq}
            msb_filter.define_aspect(i,freq,ad)
        self.add_control("low",msb_filter)
        msb_filter.layout((xfilter,yfilter))
        msb_filter.update_aspect()

        volume_slider("wet",xefx,ysliders)
        volume_slider("dry",xdry,ysliders)

        tog_rs_enable = ToggleButton(canvas,"resampleEnable",editor,
                                     fill = cfill,
                                     foreground = cforeground,
                                     outline = coutline,
                                     selected_fill = csfill,
                                     selected_foreground = csforeground,
                                     text = ["Off","On"],
                                     values = [0,1])
        self.add_control("resampleEnable", tog_rs_enable)
        tog_rs_enable.layout((xclock,yrsenable))
        tog_rs_enable.update_aspect()
Exemple #30
0
    def __init__(self, editor):
        frame = editor.create_tab(self.NAME,self.TAB_FILE)
        frame.config(background=factory.bg())
        canvas = factory.canvas(frame, 1400, 700, self.IMAGE_FILE)
        canvas.pack()
        self.canvas = canvas
        self.editor = editor
        TkSubEditor.__init__(self, canvas, editor, self.NAME)
        editor.add_child_editor(self.NAME, self)

        y = [50,275]
        x0 = 100
        xdelay = x0 + 180
        xmod = xdelay+90
        xfeedback = xmod+120
        xeq = xfeedback+60
        xmixer = xeq+150
        
        def add_slider(param,s,x,y,width=14,height=150):
            self.add_control(param,s)
            s.widget().place(x=x,y=y,width=width,height=height)
        
        def amp_slider(param,x,y):
            s = cf.volume_slider(canvas,param,editor)
            add_slider(param,s,x,y)

        def bipolar_slider(param,x,y, width=14, height=150):
            s = cf.bipolar_slider(canvas,param,editor)
            add_slider(param,s,x,y,width,height)

        def eq_slider(param,x,y):
            s = cf.third_octave_slider(canvas,param,editor)
            add_slider(param,s,x,y)

        def norm_slider(param,x,y):
            s = cf.normalized_slider(canvas,param,editor)
            add_slider(param,s,x,y)

        def linear_slider(param,x,y,range_=(0.0,1.0)):
            s = cf.linear_slider(canvas,param,editor,range_=range_)
            add_slider(param,s,x,y)
            
        for i in (0,1):
            n = i+1
            for j, p in enumerate(('d%dDry1In','d%dDry2In')):
                x = x0 + j*60
                param = p % n
                amp_slider(param,x,y[i])
            amp_slider('d2Delay1In',x0+60*2, y[1])
            param = 'd%dDelayTime' % n
            tumbler_delay = Tumbler(canvas, param, editor,
                                    sign=False, digits=4,scale = 0.001,
                                    range_ = (0,2000))
            self.add_control(param,tumbler_delay)
            tumbler_delay.layout((xdelay, y[i]))
            param = 'd%dLfoRatio' % n
            msb_lfo_ratio = MSB(canvas,param,editor,len(LFO_RATIOS))
            self.add_control(param, msb_lfo_ratio)
            for k,pair in enumerate(LFO_RATIOS):
                adict = {'text' : pair[0],
                         'font' : ('Times', 12),
                         'fill' : 'black',
                         'foreground' : 'white',
                         'outline' : 'white',
                         'active-fill' : 'black',
                         'active-foreground' : 'yellow',
                         'active-outline' : 'yellow'}
                msb_lfo_ratio.define_aspect(k,pair[1],adict)
                msb_lfo_ratio.layout((xdelay, y[i]+75))
                msb_lfo_ratio.update_aspect()
            norm_slider('d%dLfoModDepth' % n, xmod,y[i])
            norm_slider('d%dExternalModDepth' % n, xmod+60,y[i]) 
            bipolar_slider('d%dFeedback' % n, xfeedback,y[i])
            eq_slider('d%dLowpass' % n, xeq,y[i])
            eq_slider('d%dHighpass' % n, xeq+60,y[i])

        # Mixer
        amp_slider("dry1Amp", xmixer, y[0])
        amp_slider("dry2Amp", xmixer+60, y[0])
        amp_slider("d1Amp", xmixer+120, y[0])
        amp_slider("d2Amp", xmixer+180, y[0])

        bipolar_slider("dry1Pan", xmixer, y[1],height=75)
        bipolar_slider("dry2Pan", xmixer+60, y[1],height=75)
        bipolar_slider("d1Pan", xmixer+120, y[1],height=75)
        bipolar_slider("d2Pan", xmixer+180, y[1],height=75)

        msb_lfo_preset = MSB(canvas,"",None,7)
        for i in range(len(msb_lfo_preset)):
            adict = {'fill' : 'black',
                     'foreground' : 'white',
                     'outline' : 'white',
                     'active-fill' : 'black',
                     'active-foregeround' : 'yellow',
                     'active-outline' : 'yellow',
                     'text' : str(i+1),
                     'fomt' : ('Times', 8)}
            msb_lfo_preset.define_aspect(i,i+1,adict)
        msb_lfo_preset.layout((xmixer+160, y[1]+143),width=18,height=18)
        msb_lfo_preset.update_aspect()
        def lfo_preset_freq(*_):
            v = msb_lfo_preset.value()
            synth = self.editor.synth
            synth.x_param_change("lfoCommonFreq",v)
            synth.bank()[None]["lfoCommonFreq"] = float(v)
            tumbler_lfo.value(v)
        msb_lfo_preset.tag_bind("<Button-1>", lfo_preset_freq)
        msb_lfo_preset.tag_bind("<Button-3>", lfo_preset_freq)
            
        tumbler_lfo = Tumbler(canvas,"lfoCommonFreq",editor,
                              sign=False,digits=5, scale=0.001,
                              range_=(0,16999))
        self.add_control("lfoCommonFreq", tumbler_lfo)
        tumbler_lfo.layout((xmixer+60, y[1]+143))
Exemple #31
0
    def __init__(self, editor):
        frame = editor.create_tab(self.NAME, self.TAB_FILE)
        frame.config(background=factory.bg())
        canvas = factory.canvas(frame,1000,700,self.IMAGE_FILE)
        canvas.pack()
        TkSubEditor.__init__(self, canvas, editor, self.NAME)
        editor.add_child_editor(self.NAME, self)
        y0 = 75
        y1 = y0+60
        y2 = y1+60 
        y3 = y2+70
        x0=90
        x1 = x0+100
        x2 = x1+60
        x3 = x2+60
        x4 = x3+60
        x5 = x4+75
        x6 = x5+60
        xlfo = x6+75
        xmix = x6+196
        
        def norm_slider(param, x, y):
            s = cf.normalized_slider(canvas, param, editor)
            self.add_control(param,s)
            s.widget().place(x=x,y=y)
            return s

        def bipolar_slider(param, x, y, height=150):
            s = cf.bipolar_slider(canvas, param, editor)
            self.add_control(param,s)
            s.widget().place(x=x,y=y,height=height)
            return s
            
        def amp_slider(param, x, y):
            s = cf.volume_slider(canvas, param, editor)
            self.add_control(param,s)
            s.widget().place(x=x,y=y)
            return s

        def linear_slider(param, x, y, range_):
            s = cf.linear_slider(canvas, param, editor, range_=range_)
            self.add_control(param,s)
            s.widget().place(x=x,y=y)
            return s
     
        msb_xover = MSB(canvas,"xover",editor,len(xcon.CROSSOVER_FREQUENCIES))
        for i,v in enumerate(xcon.CROSSOVER_FREQUENCIES):
            d = _msb_aspect(v,str(v))
            msb_xover.define_aspect(i,v,d)
        self.add_control("xover", msb_xover)
        msb_xover.layout((x0,y0))
        msb_xover.update_aspect()
        msb_maxxover = MSB(canvas,"maxXover",editor,len(xcon.CROSSOVER_FREQUENCIES))
        for i,v in enumerate(xcon.CROSSOVER_FREQUENCIES):
            d = _msb_aspect(v,str(v))
            msb_maxxover.define_aspect(i,v,d)
        self.add_control("maxXover", msb_maxxover)
        msb_maxxover.layout((x0,y1))
        msb_maxxover.update_aspect()
        msb_minxover = MSB(canvas,"minXover",editor,len(xcon.CROSSOVER_FREQUENCIES))
        for i,v in enumerate(xcon.CROSSOVER_FREQUENCIES):
            d = _msb_aspect(v,str(v))
            msb_minxover.define_aspect(i,v,d)
        self.add_control("minXover",msb_minxover)
        msb_minxover.layout((x0,y2))
        msb_minxover.update_aspect()
        norm_slider("lfoToXover", x1,y0)
        msb_lforatio = MSB(canvas,"lfo2Ratio",editor,len(xcon.LFO_RATIOS))
        for i,p in enumerate(xcon.LFO_RATIOS):
            ratio, text = p
            d = _msb_aspect(ratio,text)
            msb_lforatio.define_aspect(i,ratio,d)
        self.add_control("lfo2Ratio", msb_lforatio)
        msb_lforatio.layout((x1-22,y3))
        msb_lforatio.update_aspect()
        norm_slider("lfo2Wave",x2,y0)
        norm_slider("externToXover",x3,y0)
        norm_slider("res",x4,y0)
        norm_slider("filterBMix",x5,y0)
        norm_slider("filterBLag",x6,y0)
        msb_b_ratio = MSB(canvas,"filterBRatio",editor,len(xcon.FILTER_B_RATIOS))
        for i,p in enumerate(xcon.FILTER_B_RATIOS):
            ratio,text = p
            d = _msb_aspect(ratio,text)
            msb_b_ratio.define_aspect(i,ratio,d)
        self.add_control("filterBRatio", msb_b_ratio)
        msb_b_ratio.layout((x5+6,y3))
        msb_b_ratio.update_aspect()
        tumbler = Tumbler(canvas,"lfoFreq",editor,digits=4,scale=0.01)
        self.add_control("lfoFreq", tumbler)
        tumbler.layout((xlfo, y1))
        msb_lfo_enable = ToggleButton(canvas,"lfoEnable",editor,
                                      fill='',foreground='#c29378',outline='#c29378',
                                      active_color='yellow',
                                      selected_fill='#825151', selected_foreground='white')
        self.add_control("lfoEnable",msb_lfo_enable)
        msb_lfo_enable.layout((xlfo, y2))
        msb_lfo_enable.update_aspect()
        amp_slider("dryAmp", xmix, y0)
        amp_slider("filterAAmp", xmix+60, y0)
        amp_slider("filterBAmp", xmix+120, y0)
        amp_slider("amp", xmix+180,y0)
        bipolar_slider("dryPan", xmix, y3)
        bipolar_slider("filterAPan", xmix+60, y3)
        bipolar_slider("filterBPan", xmix+120, y3)
        linear_slider("xscale", xlfo-7, y3, (0,4))
        linear_slider("xbias", xlfo+53, y3, (-4,4))
Exemple #32
0
    def __init__(self, editor):
        name = "Misc"
        image_file = "resources/Corvus/editor_misc.png"
        tab_file =   "resources/Tabs/misc.png"
        frame = editor.create_tab(name,tab_file)
        frame.config(background=factory.bg())
        canvas = factory.canvas(frame, 1000, 750,image_file)
        canvas.pack()
        self.canvas = canvas
        self.editor = editor
        TkSubEditor.__init__(self, canvas, editor, name)
        editor.add_child_editor(name, self)
        self.op = n
        y0 = 50
        y_msb = 230
        x0 = 50
        x_port = x0
        x_vib = x_port+90
        x_vdelay = x_vib+90
        x_vsens = x_vdelay+60
        x_vdepth = x_vsens+60
        x_xpitch = x_vdepth+60
        x_lfo1 = x_xpitch+90
        x_lfo2 = x_lfo1 + 90
        x_amp = x_lfo2 + 90
       
        def norm_slider(param,x,y,height=150):
            s = cf.normalized_slider(canvas,param,editor)
            self.add_control(param,s)
            s.widget().place(x=x,y=y,height=height)
            return s

        def volume_slider(param,x,y,height=150):
            s = cf.volume_slider(canvas,param,editor)
            self.add_control(param,s)
            s.widget().place(x=x,y=y,height=height)
            return s

        def linear_slider(param,range_,x,y):
            s = cf.linear_slider(canvas,param,editor,range_=range_)
            self.add_control(param,s)
            s.widget().place(x=x,y=y)
            return s
        
        def tumbler(param,digits,scale,x,y):
            t = Tumbler(canvas,param,editor,digits=digits,scale=scale)
            self.add_control(param,t)
            t.layout((x,y))
            t.update_aspect()
            return t

        def msb_ratio(n,x):
            param = "lfo%d_ratio" % n
            count = len(LFO_RATIOS)
            msb = MSB(canvas,param,editor,count)
            for i,pair in enumerate(LFO_RATIOS):
                value,txt = pair
                d = {"fill" : CFILL,
                     "foreground" : CFOREGROUND,
                     "outline" : COUTLINE,
                     "value" : value,
                     "text" : txt}
                msb.define_aspect(i,value,d)
            self.add_control(param, msb)
            msb.layout((x,y_msb))
            msb.update_aspect()
            return msb
        
        norm_slider("port",x_port,y0)
        tumbler("vfreq",5,0.001,x_vib,y0)
        linear_slider("vdelay",(0,4),x_vdelay,y0)
        norm_slider("vsens",x_vsens,y0)
        norm_slider("vdepth",x_vdepth,y0)
        norm_slider("xpitch",x_xpitch,y0)
        linear_slider("lfo1_delay",(0,4),x_lfo1,y0)
        msb_ratio(1,x_lfo1-22)
        linear_slider("lfo2_delay",(0,4),x_lfo2,y0)
        msb_ratio(2,x_lfo2-22)
        volume_slider("amp",x_amp,y0)
        
        y_penv = 375
        y_buttons = y_penv+200
        x_penv = x0
        for a in (0,1,2,3,4):
            x = x_penv + a*60
            linear_slider("pe_a%d" % a, (-1.0,1.0),x,y_penv)
        x += 60
        for t in (1,2,3,4):
            x = x+60
            linear_slider("pe_t%d" % t, (0,MAX_ENV_SEGMENT),x,y_penv)
        x += 60
        x_send = x
        for i in (1,2,3,4):
          x += 60
          linear_slider("op%d_pe" % i,(-1,1),x,y_penv)
        count = len(PENV_HOLD_NODES)
        msb_loop = MSB(canvas,"pe_loop",editor,count)
        for i,v in enumerate(PENV_LOOP_NODES):
            d = {"fill" : CFILL,
                 "foreground" : CFOREGROUND,
                 "outline" : COUTLINE,
                 "value" : v,
                 "text" : str(v)}
            msb_loop.define_aspect(i,v,d)
        self.add_control("pe_loop",msb_loop)
        msb_loop.layout((x_penv, y_buttons))
        msb_loop.update_aspect()

        def zero_levels():
            for a in (0,1,2,3,4):
                p = "pe_a%d" % a
                self.set_value(p,0.0)
            self.sync()

        def zero_sends():
            for a in (1,2,3,4):
                p = "op%d_pe" % a
                self.set_value(p,0.0)
            self.sync()
            
        b1 = factory.button(canvas,"0", command=zero_levels)
        b1.place(x=x_penv+120,y=y_buttons)
        b2 = factory.button(canvas,"0",command=zero_sends)
        b2.place(x=x_send+49,y=y_buttons)
Exemple #33
0
    def __init__(self, n, editor):
        name = "OP%d" % n
        image_file = "resources/Corvus/editor_%d.png" % n
        tab_file =   "resources/Corvus/tab_%d.png" % n
        frame = editor.create_tab(name,tab_file)
        frame.config(background=factory.bg())
        canvas = factory.canvas(frame, 1053, 663, image_file)
        canvas.pack()
        self.canvas = canvas
        self.editor = editor
        TkSubEditor.__init__(self, canvas, editor, name)
        editor.add_child_editor(name, self)
        self.op = n
        
        y0 = 50
        y_carrier = y0
        y_mod = y_carrier
        y_env = y0 + 250
        
        x0 = 50
        x_fm = x0
        x_mod_lfo1 = x_fm + 100
        x_mod_lfo2 = x_mod_lfo1 + 60
        x_mod_external = x_mod_lfo2 + 60
        x_mod_keyscale = x_mod_lfo2 + 100
        x_mod_amp = x_mod_keyscale + 87

        x_carrier = x_mod_amp + 100
        x_ratio = x_carrier
        x_velocity = x_ratio+120
        x_lfo1 = x_velocity+60
        x_lfo2 = x_lfo1+60
        x_external = x_lfo2+60
        x_keyscale = x_external + 60
        x_enable = x_keyscale + 90

        x_env = x0-22
       
        
        
        def norm_slider(param,x,y,height=150):
            s = cf.normalized_slider(canvas,param,editor)
            self.add_control(param,s)
            s.widget().place(x=x,y=y,height=height)
            return s

        def volume_slider(param,x,y,height=150):
            s = cf.volume_slider(canvas,param,editor)
            self.add_control(param,s)
            s.widget().place(x=x,y=y,height=height)
            return s

        def linear_slider(param,range_,x,y):
            s = cf.linear_slider(canvas,param,editor,range_=range_)
            self.add_control(param,s)
            s.widget().place(x=x,y=y)
            return s
        
        def tumbler(param,digits,scale,x,y):
            t = Tumbler(canvas,param,editor,digits=digits,scale=scale)
            self.add_control(param,t)
            t.layout((x,y))
            t.update_aspect()
            return t

        def msb_keyscale(param,x,y):
            count = len(KEYSCALES)
            msb = MSB(canvas,param,editor,count)
            for i,s in enumerate(KEYSCALES):
                d = {"fill" : CFILL,
                     "foreground" : CFOREGROUND,
                     "outline" : COUTLINE,
                     "value" : s,
                     "text" : "%+d" % s}
                msb.define_aspect(i,s,d)
            self.add_control(param,msb)
            msb.layout((x,y))
            msb.update_aspect()
            return msb

        def msb_keybreak(param,x,y):
            count = len(KEYBREAK)
            msb = MSB(canvas,param,editor,count)
            for i,s in enumerate(KEYBREAK):
                d = {"fill" : CFILL,
                     "foreground" : CFOREGROUND,
                     "outline" : COUTLINE,
                     "value" : s,
                     "text" : "%d" % s}
                msb.define_aspect(i,s,d)
            self.add_control(param,msb)
            msb.layout((x,y))
            msb.update_aspect()
            return msb

        def msb_modscale(param,x,y):
            count = len(MODSCALES)
            msb = MSB(canvas,param,editor,count)
            for i in MODSCALES:
                j = i+1
                value = 10**i
                d = {"fill" : CFILL,
                     "foreground" : CFOREGROUND,
                     "outline" : COUTLINE,
                     "value" : value,
                     "text" : "x%d" % j}
                msb.define_aspect(i,value,d)
            self.add_control(param,msb)
            msb.layout((x,y))
            msb.update_aspect()
      

        tumbler("fm%d_ratio" % n,5,0.001,x_fm,y_mod)
        norm_slider("fm%d_lfo1" % n,x_mod_lfo1,y_mod)
        norm_slider("fm%d_lfo2" % n,x_mod_lfo2,y_mod)
        norm_slider("fm%d_external" % n, x_mod_external, y_mod)
        msb_keyscale("fm%d_left" % n, x_mod_keyscale, y_mod)
        msb_keyscale("fm%d_right" % n, x_mod_keyscale, y_mod+70)
        msb_modscale("fm%d_modscale" % n, x_mod_amp, y_mod)
        norm_slider("fm%d_moddepth" % n, x_mod_amp+24, y_mod+50, height=100)
        norm_slider("fm%d_lag" % n, x_fm+30,y_mod+75,height=75)

        tumbler("op%d_ratio" % n,5,0.001,x_ratio+8,y_carrier)
        tumbler("op%d_bias" % n,6,0.001,x_ratio,y_carrier+75)
        norm_slider("op%d_velocity" % n,x_velocity,y0)
        norm_slider("op%d_lfo1" % n,x_lfo1,y0)
        norm_slider("op%d_lfo2" % n,x_lfo2,y0)
        norm_slider("op%d_external" % n,x_external,y0)
        
        
        msb_keyscale("op%d_left" % n, x_keyscale,y0)
        msb_keyscale("op%d_right" % n, x_keyscale,y0+70)
        msb_keybreak("op%d_key" % n, x_keyscale,y0+140)
        
        penable = "op%d_enable" % n
        msb_enable = ToggleButton(canvas,penable, editor,
                                  fill = CFILL,
                                  foreground = CFOREGROUND,
                                  outline = COUTLINE,
                                  text = ["Off","Enabled"])
        self.add_control(penable,msb_enable)
        msb_enable.layout((x_enable, y0))
        msb_enable.update_aspect()
        volume_slider("op%d_amp" % n,x_enable+24,y0+50,height=100)

        env_parameters = []
        for s in ("attack","decay1","decay2","release",
                  "breakpoint","sustain","env_mode"):
            p = "op%d_%s" % (n,s)
            env_parameters.append(p)
        enved = ADDSREditor(canvas,n,(x_env,y_env),
                            (800,350),
                            env_parameters,
                            editor,
                            MAX_ENV_SEGMENT)
        self.add_child_editor("OP%dENV" % n, enved)
        enved.sync()

        y_extra = y_env+30
        x_extra = x0 + 800

        if n==3:
            # Add exgtra noise controls
            count = len(NOISE_BANDWIDTHS)
            msb = MSB(canvas,"nse3_bw",editor,count)
            for i,v in enumerate(NOISE_BANDWIDTHS):
                d = {"fill" : CFILL,
                     "foreground" : CFOREGROUND,
                     "outline" : COUTLINE,
                     "value" : v,
                     "text" : str(v)}
                msb.define_aspect(i,v,d)
            self.add_control("nse3_bw",msb)
            msb.layout((x_extra,y_extra))
            msb.update_aspect()
            norm_slider("nse3_mix",x_extra+24, y_extra+75)
        if n==4:
            # Add buzz controls
            x_n = x_extra+16
            x_env = x_n+60
            x_lfo = x_env+60
            x_lag = x_env
            x_mix = x_lag+60
            linear_slider("bzz4_n",(1,128),x_n,y_extra)
            linear_slider("bzz4_env",(-128,128),x_env,y_extra)
            linear_slider("bzz4_lfo2",(0,128),x_lfo,y_extra)
            norm_slider("bzz4_lag",x_lag,y_extra+200, height=100)
            norm_slider("bzz4_mix",x_mix,y_extra+200, height=100)
Exemple #34
0
    def __init__(self, editor):
        frame = editor.create_tab(self.NAME,self.TAB_FILE)
        frame.config(background=factory.bg())
        canvas = factory.canvas(frame, 741,700, self.IMAGE_FILE)
        canvas.pack()
        self.canvas = canvas
        self.editor = editor
        TkSubEditor.__init__(self, canvas, editor, self.NAME)
        editor.add_child_editor(self.NAME, self)

        y0 = 50
        x0 = 75
        xfilter = x0+130
        xmod = xfilter+90
        xattack = xmod + 90
        xrelease = xattack + 60
        xdry = xrelease+90
        xwet = xdry+60
               
        
        def norm_slider(param,x):
            s = cf.normalized_slider(canvas,param,editor)
            self.add_control(param,s)
            s.widget().place(x=x,y=y0)
            return s

        def volume_slider(param,x):
            s = cf.volume_slider(canvas,param,editor)
            self.add_control(param,s)
            s.widget().place(x=x,y=y0)
            return s

        def linear_slider(param,range_,x):
            s = cf.linear_slider(canvas,param,editor,range_=range_)
            self.add_control(param,s)
            s.widget().place(x=x,y=y0)
            return s

        t_freq = Tumbler(canvas,"fixedFrequency",editor,
                         digits = 4, scale=0.01)
        t_track = Tumbler(canvas,"keyTrack",editor,
                          digits=2, scale=1, range_=(0,16))
        self.add_control("fixedFrequency",t_freq)
        self.add_control("keyTrack",t_track)
        t_freq.layout((x0+25,y0+25))
        t_track.layout((x0+40,y0+100))

        cfill = 'black'
        cforeground = 'white'
        coutline = 'white'
        
        msb_filter = MSB(canvas,"inputFilter",editor,len(FILTER_VALUES))
        for i,v in enumerate(FILTER_VALUES):
            k = v/1000
            tx = "%dk" % k
            d = {"fill" : cfill,
                 "foreground" : cforeground,
                 "outline" : coutline,
                 "value" : v,
                 "text" : tx}
            msb_filter.define_aspect(i,v,d)
        self.add_control("inputFilter",msb_filter)
        msb_filter.layout((xfilter,y0+25))
        msb_filter.update_aspect()

        msb_gain = MSB(canvas,"inputGain",editor,MAX_INPUT_GAIN_MAGNITUDE)
        for i in range(MAX_INPUT_GAIN_MAGNITUDE):
            j = i+1
            v = 10**i
            tx = "x%d" % j
            d = {"fill" : cfill,
                 "foreground" : cforeground,
                 "outline" : coutline,
                 "value" : v,
                 "text" : tx}
            msb_gain.define_aspect(i,v,d)
        self.add_control("inputGain",msb_gain)
        msb_gain.layout((xfilter,y0+100))
        msb_gain.update_aspect()
        norm_slider("modDepth",xmod)
        linear_slider("attack",(0,4),xattack)
        linear_slider("release",(0,4),xrelease)

        msb_env = ToggleButton(canvas,"envelopeSelect",editor,
                               text=("Follow","ASR"),
                               values = (0,1),
                               fill=cfill,
                               selected_fill = cfill,
                               foreground=cforeground,
                               selected_foreground=cforeground,
                               outline=coutline)
                               
        self.add_control("envelopeSelect",msb_env)
        msb_env.layout((xattack+8,y0+200))
        msb_env.update_aspect()
        volume_slider("dryAmp",xdry)
        volume_slider("wetAmp",xwet)
Exemple #35
0
    def __init__(self, editor):
        name = "Misc"
        image_file = "resources/Corvus/editor_misc.png"
        tab_file = "resources/Tabs/misc.png"
        frame = editor.create_tab(name, tab_file)
        frame.config(background=factory.bg())
        canvas = factory.canvas(frame, 1000, 750, image_file)
        canvas.pack()
        self.canvas = canvas
        self.editor = editor
        TkSubEditor.__init__(self, canvas, editor, name)
        editor.add_child_editor(name, self)
        self.op = n
        y0 = 50
        y_msb = 230
        x0 = 50
        x_port = x0
        x_vib = x_port + 90
        x_vdelay = x_vib + 90
        x_vsens = x_vdelay + 60
        x_vdepth = x_vsens + 60
        x_xpitch = x_vdepth + 60
        x_lfo1 = x_xpitch + 90
        x_lfo2 = x_lfo1 + 90
        x_amp = x_lfo2 + 90

        def norm_slider(param, x, y, height=150):
            s = cf.normalized_slider(canvas, param, editor)
            self.add_control(param, s)
            s.widget().place(x=x, y=y, height=height)
            return s

        def volume_slider(param, x, y, height=150):
            s = cf.volume_slider(canvas, param, editor)
            self.add_control(param, s)
            s.widget().place(x=x, y=y, height=height)
            return s

        def linear_slider(param, range_, x, y):
            s = cf.linear_slider(canvas, param, editor, range_=range_)
            self.add_control(param, s)
            s.widget().place(x=x, y=y)
            return s

        def tumbler(param, digits, scale, x, y):
            t = Tumbler(canvas, param, editor, digits=digits, scale=scale)
            self.add_control(param, t)
            t.layout((x, y))
            t.update_aspect()
            return t

        def msb_ratio(n, x):
            param = "lfo%d_ratio" % n
            count = len(LFO_RATIOS)
            msb = MSB(canvas, param, editor, count)
            for i, pair in enumerate(LFO_RATIOS):
                value, txt = pair
                d = {
                    "fill": CFILL,
                    "foreground": CFOREGROUND,
                    "outline": COUTLINE,
                    "value": value,
                    "text": txt
                }
                msb.define_aspect(i, value, d)
            self.add_control(param, msb)
            msb.layout((x, y_msb))
            msb.update_aspect()
            return msb

        norm_slider("port", x_port, y0)
        tumbler("vfreq", 5, 0.001, x_vib, y0)
        linear_slider("vdelay", (0, 4), x_vdelay, y0)
        norm_slider("vsens", x_vsens, y0)
        norm_slider("vdepth", x_vdepth, y0)
        norm_slider("xpitch", x_xpitch, y0)
        linear_slider("lfo1_delay", (0, 4), x_lfo1, y0)
        msb_ratio(1, x_lfo1 - 22)
        linear_slider("lfo2_delay", (0, 4), x_lfo2, y0)
        msb_ratio(2, x_lfo2 - 22)
        volume_slider("amp", x_amp, y0)

        y_penv = 375
        y_buttons = y_penv + 200
        x_penv = x0
        for a in (0, 1, 2, 3, 4):
            x = x_penv + a * 60
            linear_slider("pe_a%d" % a, (-1.0, 1.0), x, y_penv)
        x += 60
        for t in (1, 2, 3, 4):
            x = x + 60
            linear_slider("pe_t%d" % t, (0, MAX_ENV_SEGMENT), x, y_penv)
        x += 60
        x_send = x
        for i in (1, 2, 3, 4):
            x += 60
            linear_slider("op%d_pe" % i, (-1, 1), x, y_penv)
        count = len(PENV_HOLD_NODES)
        msb_loop = MSB(canvas, "pe_loop", editor, count)
        for i, v in enumerate(PENV_LOOP_NODES):
            d = {
                "fill": CFILL,
                "foreground": CFOREGROUND,
                "outline": COUTLINE,
                "value": v,
                "text": str(v)
            }
            msb_loop.define_aspect(i, v, d)
        self.add_control("pe_loop", msb_loop)
        msb_loop.layout((x_penv, y_buttons))
        msb_loop.update_aspect()

        def zero_levels():
            for a in (0, 1, 2, 3, 4):
                p = "pe_a%d" % a
                self.set_value(p, 0.0)
            self.sync()

        def zero_sends():
            for a in (1, 2, 3, 4):
                p = "op%d_pe" % a
                self.set_value(p, 0.0)
            self.sync()

        b1 = factory.button(canvas, "0", command=zero_levels)
        b1.place(x=x_penv + 120, y=y_buttons)
        b2 = factory.button(canvas, "0", command=zero_sends)
        b2.place(x=x_send + 49, y=y_buttons)
Exemple #36
0
    def __init__(self, editor):
        frame = editor.create_tab(self.NAME,self.TAB_FILE)
        frame.config(background=factory.bg())
        canvas = factory.canvas(frame, 700, 250, self.IMAGE_FILE)
        canvas.pack()
        self.canvas = canvas
        self.editor = editor
        TkSubEditor.__init__(self, canvas, editor, self.NAME)
        editor.add_child_editor(self.NAME, self)

        y0 = 100
        ymsb = y0
        ytumbler = y0
        ylag = y0-18

        x0 = 75
        xwave = x0+25
        xpol = xwave + 100
        xclip = xpol + 100
        xlag = xclip + 100
        xscale = xlag + 50
        xbias = xscale + 100
        
        cfill = "black"
        cforeground = "white"
        coutline = "white"
        
        def norm_slider(param,x,y):
            s = cf.normalized_slider(canvas,param,editor)
            self.add_control(param,s)
            s.widget().place(x=x,y=y, width=10, height=75)
            return s

        # def volume_slider(param,x):
        #     s = cf.volume_slider(canvas,param,editor)
        #     self.add_control(param,s)
        #     s.widget().place(x=x,y=y0)
        #     return s

        # def linear_slider(param,range_,x):
        #     s = cf.linear_slider(canvas,param,editor,range_=range_)
        #     self.add_control(param,s)
        #     s.widget().place(x=x,y=y0)
        #     return s

        def tumbler(param,x,y):
            t = Tumbler(canvas,param,editor,digits=3,scale = 0.01,sign=True)
            self.add_control(param,t)
            t.layout((x,y))
            t.update_aspect()
            return t
        
        WAVES = ("off","abs","cube")
        msb_wave = MSB(canvas,"wave",editor,len(WAVES))
        for i,w in enumerate(WAVES):
            d = {"fill":cfill,
                 "foreground":cforeground,
                 "outline":coutline,
                 "value":i,
                 "text":w}
            msb_wave.define_aspect(i,i,d)
        self.add_control("wave",msb_wave)
        msb_wave.layout((xwave,ymsb))
        msb_wave.update_aspect()

        POLS = ("off","->bipolar","->polar")
        msb_pol = MSB(canvas,"polarityComp",editor,len(POLS))
        for i,w in enumerate(POLS):
            d = {"fill":cfill,
                 "foreground":cforeground,
                 "outline":coutline,
                 "value":i,
                 "text":w}
            msb_pol.define_aspect(i,i,d)
        self.add_control("polarityComp",msb_pol)
        msb_pol.layout((xpol,ymsb))
        msb_pol.update_aspect()

        tumbler("clipMax",xclip,ytumbler-10)
        tumbler("clipMin",xclip,ytumbler+14)
        norm_slider("lag",xlag,ylag)
        tumbler("scale",xscale,ytumbler)
        tumbler("bias",xbias,ytumbler)
Exemple #37
0
 def __init__(self, editor):
     frame = editor.create_tab(self.NAME, self.TAB_FILE)
     frame.config(background=factory.bg())
     canvas = factory.canvas(frame, 1000, 700, self.IMAGE_FILE)
     canvas.pack()
     self.canvas = canvas
     self.editor = editor
     TkSubEditor.__init__(self, canvas, editor, self.NAME)
     editor.add_child_editor(self.NAME, self)
     y0 = 50
     x0 = 75
     def norm_slider(param,x):
         s = cf.normalized_slider(canvas,param,editor)
         self.add_control(param,s)
         s.widget().place(x=x,y=y0)
         return s
     def volume_slider(param,x):
         s = cf.volume_slider(canvas,param,editor)
         self.add_control(param,s)
         s.widget().place(x=x,y=y0)
         return s
     def linear_slider(param,range_,x):
         s = cf.linear_slider(canvas,param,editor,range_=range_)
         self.add_control(param,s)
         s.widget().place(x=x,y=y0)
         return s
     def exp_slider(param,range_,degree=2):
         s = ExpSlider(canvas,param,editor,range_,degree)
         self.add_control(param,s)
         return s
     def env_slider(param,x):
         s = exp_slider(param,6)
         s.layout(offset=(x,y0),checkbutton_offset=None)
         return s
     def msb_aspect(msb,index,text,value):
         d = {"fill" : CFILL,
              "foreground" : CFOREGROUND,
              "outline" : COUTLINE,
              "text" : str(text),
              "value" : value}
         msb.define_aspect(index,value,d)
         return d
     x_osc = x0
     x_delta = 75
     x_port = x_osc
     x_saw = x_port + 75
     x_pulse = x_saw + x_delta
     x_sub = x_pulse + x_delta
     x_noise = x_sub + x_delta
     y_msb = y0+200
     x_msb_offset = -24
     norm_slider("port",x_port)
     norm_slider("sawMix",x_saw)
     norm_slider("pulseMix",x_pulse)
     norm_slider("subMix",x_sub)
     norm_slider("noiseMix",x_noise)
     param = "chorus"
     msb = MSB(canvas,param,editor,2)
     msb_aspect(msb,0,"Off",0)
     msb_aspect(msb,1,"On",1)
     self.add_control(param,msb)
     msb.layout((x_saw+x_msb_offset,y_msb))
     msb.update_aspect()
     param = "subOctave"
     msb = MSB(canvas,param,editor,2)
     msb_aspect(msb,0,"-1",0)
     msb_aspect(msb,1,"-2",1)
     self.add_control(param,msb)
     msb.layout((x_sub+x_msb_offset,y_msb))
     msb.update_aspect()
     param = "noiseSelect"
     msb = MSB(canvas,param,editor,2)
     msb_aspect(msb,0,"White",0)
     msb_aspect(msb,1,"Pink",1)
     self.add_control(param,msb)
     msb.layout((x_noise+x_msb_offset,y_msb))
     msb.update_aspect()
     x_wave = x_noise+x_delta
     x_lfo = x_wave + 60
     x_env = x_lfo + 60
     norm_slider("wave",x_wave)
     norm_slider("waveLFO",x_lfo)
     norm_slider("waveEnv",x_env)
     x_filter = x_env+90
     x_lfo = x_filter + 90
     x_env = x_lfo + 60
     x_x = x_env + 60
     x_res = x_x + 60
     y_hp = y0 + 20
     y_ff = y_hp + 90
     y_track = y_msb
     param = "highPass"
     msb = MSB(canvas,param,editor,len(HIGHPASS_CUTOFF))
     for i,v in enumerate(HIGHPASS_CUTOFF):
         msb_aspect(msb,i,str(v),v)
     self.add_control(param,msb)
     msb.layout((x_filter, y_hp))
     msb.update_aspect()
     param = "filterFreq"
     msb = MSB(canvas,param,editor,len(LOWPASS_CUTOFF))
     for i,v in enumerate(LOWPASS_CUTOFF):
         msb_aspect(msb,i,str(v),v)
     self.add_control(param,msb)
     msb.layout((x_filter,y_ff))
     msb.update_aspect()
     param = "filterTrack"
     msb = MSB(canvas,param,editor,len(LOWPASS_TRACK))
     for i,v in enumerate(LOWPASS_TRACK):
         msb_aspect(msb,i,str(v),v)
     msb.layout((x_filter, y_track))
     msb.update_aspect()
     s = exp_slider("filterLFO",MID_CUTOFF)
     s.layout(offset=(x_lfo,y0),checkbutton_offset=None)
     s = exp_slider("filterEnv",10000)
     s.layout(offset=(x_env,y0))
     s = exp_slider("xFilter",10000)
     s.layout(offset=(x_x,y0))
     norm_slider("filterRes",x_res)
     y0 = 350
     x_lfo = x0
     x_lfo_delay = x_lfo+90
     x_lfo_amp = x_lfo_delay+60
     x_vsens = x_lfo_amp+90
     x_vdepth = x_vsens+60
     x_xpitch = x_vdepth+60
     param = "lfoFreq"
     t = Tumbler(canvas,param,editor,digits=5,scale=0.001)
     self.add_control(param,t)
     t.layout((x_lfo, y0))
     param = "lfoWave"
     msb = MSB(canvas,param,editor,3)
     self.add_control(param,msb)
     msb_aspect(msb,0,"Sine",0)
     msb_aspect(msb,1,"Square",1)
     msb_aspect(msb,2,"Random",2)
     msb.layout((x_lfo,y0+90))
     msb.update_aspect()
     linear_slider("lfoDelay",(0,3),x_lfo_delay)
     norm_slider("lfoAmp",x_lfo_amp)
     norm_slider("vsens",x_vsens)
     norm_slider("vdepth",x_vdepth)
     norm_slider("xPitch",x_xpitch)
     x_env = x_xpitch+90
     env_slider("attack",x_env)
     env_slider("decay",x_env+60)
     norm_slider("sustain",x_env+120)
     env_slider("release",x_env+180)
     x_amp = x_env+180+90
     param = "gateMode"
     msb = MSB(canvas,param,editor,2)
     self.add_control(param,msb)
     msb_aspect(msb,0,"ADSR",0)
     msb_aspect(msb,1,"Gate",1)
     msb.layout((x_amp, y0+90))
     msb.update_aspect()
     volume_slider("amp",x_amp+90)
Exemple #38
0
 def __init__(self, editor):
     frame = editor.create_tab(self.NAME, self.TAB_FILE)
     frame.config(background=factory.bg())
     canvas = factory.canvas(frame, 1000, 700, self.IMAGE_FILE)
     canvas.pack()
     self.canvas = canvas
     self.editor = editor
     TkSubEditor.__init__(self, canvas, editor, self.NAME)
     editor.add_child_editor(self.NAME, self)
     y0 = 50
     x0 = 75
     def norm_slider(param,x):
         s = cf.normalized_slider(canvas,param,editor)
         self.add_control(param,s)
         s.widget().place(x=x,y=y0)
         return s
     def volume_slider(param,x):
         s = cf.volume_slider(canvas,param,editor)
         self.add_control(param,s)
         s.widget().place(x=x,y=y0)
         return s
     def linear_slider(param,range_,x):
         s = cf.linear_slider(canvas,param,editor,range_=range_)
         self.add_control(param,s)
         s.widget().place(x=x,y=y0)
         return s
     def exp_slider(param,range_,degree=2):
         s = ExpSlider(canvas,param,editor,range_,degree)
         self.add_control(param,s)
         return s
     def env_slider(param,x):
         s = exp_slider(param,6)
         s.layout(offset=(x,y0),checkbutton_offset=None)
         return s
     def msb_aspect(msb,index,text,value):
         d = {"fill" : CFILL,
              "foreground" : CFOREGROUND,
              "outline" : COUTLINE,
              "text" : str(text),
              "value" : value}
         msb.define_aspect(index,value,d)
         return d
     x_osc = x0
     x_delta = 75
     x_port = x_osc
     x_saw = x_port + 75
     x_pulse = x_saw + x_delta
     x_sub = x_pulse + x_delta
     x_noise = x_sub + x_delta
     y_msb = y0+200
     x_msb_offset = -24
     norm_slider("port",x_port)
     norm_slider("sawMix",x_saw)
     norm_slider("pulseMix",x_pulse)
     norm_slider("subMix",x_sub)
     norm_slider("noiseMix",x_noise)
     param = "chorus"
     msb = MSB(canvas,param,editor,2)
     msb_aspect(msb,0,"Off",0)
     msb_aspect(msb,1,"On",1)
     self.add_control(param,msb)
     msb.layout((x_saw+x_msb_offset,y_msb))
     msb.update_aspect()
     param = "subOctave"
     msb = MSB(canvas,param,editor,2)
     msb_aspect(msb,0,"-1",0)
     msb_aspect(msb,1,"-2",1)
     self.add_control(param,msb)
     msb.layout((x_sub+x_msb_offset,y_msb))
     msb.update_aspect()
     param = "noiseSelect"
     msb = MSB(canvas,param,editor,2)
     msb_aspect(msb,0,"White",0)
     msb_aspect(msb,1,"Pink",1)
     self.add_control(param,msb)
     msb.layout((x_noise+x_msb_offset,y_msb))
     msb.update_aspect()
     x_wave = x_noise+x_delta
     x_lfo = x_wave + 60
     x_env = x_lfo + 60
     norm_slider("wave",x_wave)
     norm_slider("waveLFO",x_lfo)
     norm_slider("waveEnv",x_env)
     x_filter = x_env+90
     x_lfo = x_filter + 90
     x_env = x_lfo + 60
     x_x = x_env + 60
     x_res = x_x + 60
     y_hp = y0 + 20
     y_ff = y_hp + 90
     y_track = y_msb
     param = "highPass"
     msb = MSB(canvas,param,editor,len(HIGHPASS_CUTOFF))
     for i,v in enumerate(HIGHPASS_CUTOFF):
         msb_aspect(msb,i,str(v),v)
     self.add_control(param,msb)
     msb.layout((x_filter, y_hp))
     msb.update_aspect()
     param = "filterFreq"
     msb = MSB(canvas,param,editor,len(LOWPASS_CUTOFF))
     for i,v in enumerate(LOWPASS_CUTOFF):
         msb_aspect(msb,i,str(v),v)
     self.add_control(param,msb)
     msb.layout((x_filter,y_ff))
     msb.update_aspect()
     param = "filterTrack"
     msb = MSB(canvas,param,editor,len(LOWPASS_TRACK))
     for i,v in enumerate(LOWPASS_TRACK):
         msb_aspect(msb,i,str(v),v)
     msb.layout((x_filter, y_track))
     msb.update_aspect()
     s = exp_slider("filterLFO",MID_CUTOFF)
     s.layout(offset=(x_lfo,y0),checkbutton_offset=None)
     s = exp_slider("filterEnv",10000)
     s.layout(offset=(x_env,y0))
     s = exp_slider("xFilter",10000)
     s.layout(offset=(x_x,y0))
     norm_slider("filterRes",x_res)
     y0 = 350
     x_lfo = x0
     x_lfo_delay = x_lfo+90
     x_lfo_amp = x_lfo_delay+60
     x_vsens = x_lfo_amp+90
     x_vdepth = x_vsens+60
     x_xpitch = x_vdepth+60
     param = "lfoFreq"
     t = Tumbler(canvas,param,editor,digits=5,scale=0.001)
     self.add_control(param,t)
     t.layout((x_lfo, y0))
     param = "lfoWave"
     msb = MSB(canvas,param,editor,3)
     self.add_control(param,msb)
     msb_aspect(msb,0,"Sine",0)
     msb_aspect(msb,1,"Square",1)
     msb_aspect(msb,2,"Random",2)
     msb.layout((x_lfo,y0+90))
     msb.update_aspect()
     linear_slider("lfoDelay",(0,3),x_lfo_delay)
     norm_slider("lfoAmp",x_lfo_amp)
     norm_slider("vsens",x_vsens)
     norm_slider("vdepth",x_vdepth)
     norm_slider("xPitch",x_xpitch)
     x_env = x_xpitch+90
     env_slider("attack",x_env)
     env_slider("decay",x_env+60)
     norm_slider("sustain",x_env+120)
     env_slider("release",x_env+180)
     x_amp = x_env+180+90
     param = "gateMode"
     msb = MSB(canvas,param,editor,2)
     self.add_control(param,msb)
     msb_aspect(msb,0,"ADSR",0)
     msb_aspect(msb,1,"Gate",1)
     msb.layout((x_amp, y0+90))
     msb.update_aspect()
     volume_slider("amp",x_amp+90)
Exemple #39
0
    def __init__(self, editor):
        frame = editor.create_tab(self.NAME, self.TAB_FILE)
        frame.config(background=factory.bg())
        canvas = factory.canvas(frame, 811, 700, self.IMAGE_FILE)
        canvas.pack()
        TkSubEditor.__init__(self, canvas, editor, self.NAME)
        editor.add_child_editor(self.NAME, self)
        y0 = 60
        ypan = y0 + 350
        ymod = ypan
        ymute = ymod + 150
        yledger = ymute + 60
        x0 = 120
        xmain = x0 + 500

        def fader(chan, x):
            param = "gain%s" % chan
            s = cf.volume_slider(canvas, param, editor)
            self.add_control(param, s)
            s.widget().place(x=x, y=y0, height=300)

        def panner(chan, x):
            param = "pan%s" % chan
            s = cf.bipolar_slider(canvas, param, editor)
            self.add_control(param, s)
            s.widget().place(x=x, y=ypan, height=100)

        def mod_depth(chan, x):
            param = "mod%s" % chan
            s = cf.normalized_slider(canvas, param, editor)
            self.add_control(param, s)
            s.widget().place(x=x, y=ymod, height=100)

        def entry(x):
            var = StringVar()
            e = factory.entry(canvas, var)
            e.place(x=x, y=yledger, width=74)

        for i, prefix in enumerate("ABCD"):
            chan = "%s" % prefix
            x = x0 + i * 120
            x_pan = x
            x_mod = x + 60
            fader(chan, x + 30)
            panner(chan, x_pan)
            mod_depth(chan, x_mod)
            aoff = {
                'fill': 'black',
                'foreground': 'gray',
                'outline': 'gray',
                'text': 'Mute'
            }
            aon = {
                'fill': '#002e00',
                'foreground': 'white',
                'outline': '#096c00',
                'text': 'Mute'
            }
            msb_mute = MSB(canvas, "mute%s" % prefix, editor, 2)
            self.add_control("mute%s" % prefix, msb_mute)
            msb_mute.define_aspect(0, 0, aoff)
            msb_mute.define_aspect(1, 1, aon)
            msb_mute.layout((x + 7, ymute))
            msb_mute.update_aspect()
            entry(x)

        for i in range(2):
            x = xmain + i * 60
            fader(str(i + 1), x)
Exemple #40
0
    def __init__(self, editor):
        frame = editor.create_tab(self.NAME,self.TAB_FILE)
        frame.config(background=factory.bg())
        canvas = factory.canvas(frame, 760, 708,self.IMAGE_FILE)
        canvas.pack()
        self.canvas = canvas
        self.editor = editor
        TkSubEditor.__init__(self, canvas, editor, self.NAME)
        editor.add_child_editor(self.NAME, self)

        y0 = 50
        x0 = 75

        xres = x0+75
        xenv = xres+90
        xattack = xenv+75
        xxmod = xattack+208
        xout = xxmod+90

        def norm_slider(param,x):
            s = cf.normalized_slider(canvas,param,editor)
            self.add_control(param,s)
            s.widget().place(x=x,y=y0)
            return s

        def volume_slider(param,x): # auto build indent, mover 1->
            s = cf.volume_slider(canvas,param,editor)
            self.add_control(param,s)
            s.widget().place(x=x,y=y0)
            return s

        def linear_slider(param,range_,x): # auto build indent, mover 1->
            s = cf.linear_slider(canvas,param,editor,range_=range_) # auto build missing closing )
            self.add_control(param,s)
            s.widget().place(x=x,y=y0)
            return s

        def bipolar_slider(param,x):
            return linear_slider(param,(-1.0,+1.0),x)
        
        cfill = "black"
        cforeground="#aae1aa"
        coutline="blue"
        
        msb_filter = MSB(canvas,"filterFreq",editor,len(FILTER_FREQUENCIES))
        for i,ff in enumerate(FILTER_FREQUENCIES):
            d = {"value":int(ff),
                 "fill" : cfill,
                 "foreground" : cforeground,
                 "outline" : coutline,
                 "text" : str(ff)}
            msb_filter.define_aspect(i,ff,d)
        self.add_control("filterFreq",msb_filter)
        msb_filter.layout((x0,y0))
        msb_filter.update_aspect()

        msb_gain = MSB(canvas,"pregain",editor,len(GAINS))
        for i,g in enumerate(GAINS):
            val,tx = g
            d = {"value":float(val),
                 "fill" : cfill,
                 "foreground" : cforeground,
                 "outline" : coutline,
                 "text" : tx}
            msb_gain.define_aspect(i,float(val),d)
        self.add_control("pregain",msb_gain)
        msb_gain.layout((xenv,y0))
        msb_gain.update_aspect()
        norm_slider("res",xres)
        linear_slider("attack",(0.01,4.0),xattack)
        linear_slider("release",(0.01,4.0),xattack+60)
        bipolar_slider("modDepth",xattack+120)
        bipolar_slider("xmod",xxmod)
        volume_slider("dryamp",xout)
        volume_slider("wetamp",xout+60)
Exemple #41
0
    def __init__(self, editor):
        frame = editor.create_tab(self.NAME, self.TAB_FILE)
        frame.config(background=factory.bg())
        canvas = factory.canvas(frame, 760, 708, self.IMAGE_FILE)
        canvas.pack()
        self.canvas = canvas
        self.editor = editor
        TkSubEditor.__init__(self, canvas, editor, self.NAME)
        editor.add_child_editor(self.NAME, self)

        y0 = 50
        x0 = 75

        xres = x0 + 75
        xenv = xres + 90
        xattack = xenv + 75
        xxmod = xattack + 208
        xout = xxmod + 90

        def norm_slider(param, x):
            s = cf.normalized_slider(canvas, param, editor)
            self.add_control(param, s)
            s.widget().place(x=x, y=y0)
            return s

        def volume_slider(param, x):  # auto build indent, mover 1->
            s = cf.volume_slider(canvas, param, editor)
            self.add_control(param, s)
            s.widget().place(x=x, y=y0)
            return s

        def linear_slider(param, range_, x):  # auto build indent, mover 1->
            s = cf.linear_slider(canvas, param, editor,
                                 range_=range_)  # auto build missing closing )
            self.add_control(param, s)
            s.widget().place(x=x, y=y0)
            return s

        def bipolar_slider(param, x):
            return linear_slider(param, (-1.0, +1.0), x)

        cfill = "black"
        cforeground = "#aae1aa"
        coutline = "blue"

        msb_filter = MSB(canvas, "filterFreq", editor, len(FILTER_FREQUENCIES))
        for i, ff in enumerate(FILTER_FREQUENCIES):
            d = {
                "value": int(ff),
                "fill": cfill,
                "foreground": cforeground,
                "outline": coutline,
                "text": str(ff)
            }
            msb_filter.define_aspect(i, ff, d)
        self.add_control("filterFreq", msb_filter)
        msb_filter.layout((x0, y0))
        msb_filter.update_aspect()

        msb_gain = MSB(canvas, "pregain", editor, len(GAINS))
        for i, g in enumerate(GAINS):
            val, tx = g
            d = {
                "value": float(val),
                "fill": cfill,
                "foreground": cforeground,
                "outline": coutline,
                "text": tx
            }
            msb_gain.define_aspect(i, float(val), d)
        self.add_control("pregain", msb_gain)
        msb_gain.layout((xenv, y0))
        msb_gain.update_aspect()
        norm_slider("res", xres)
        linear_slider("attack", (0.01, 4.0), xattack)
        linear_slider("release", (0.01, 4.0), xattack + 60)
        bipolar_slider("modDepth", xattack + 120)
        bipolar_slider("xmod", xxmod)
        volume_slider("dryamp", xout)
        volume_slider("wetamp", xout + 60)
Exemple #42
0
    def __init__(self, n, editor):
        name = "OP%d" % n
        image_file = "resources/Corvus/editor_%d.png" % n
        tab_file = "resources/Corvus/tab_%d.png" % n
        frame = editor.create_tab(name, tab_file)
        frame.config(background=factory.bg())
        canvas = factory.canvas(frame, 1053, 663, image_file)
        canvas.pack()
        self.canvas = canvas
        self.editor = editor
        TkSubEditor.__init__(self, canvas, editor, name)
        editor.add_child_editor(name, self)
        self.op = n

        y0 = 50
        y_carrier = y0
        y_mod = y_carrier
        y_env = y0 + 250

        x0 = 50
        x_fm = x0
        x_mod_lfo1 = x_fm + 100
        x_mod_lfo2 = x_mod_lfo1 + 60
        x_mod_external = x_mod_lfo2 + 60
        x_mod_keyscale = x_mod_lfo2 + 100
        x_mod_amp = x_mod_keyscale + 87

        x_carrier = x_mod_amp + 100
        x_ratio = x_carrier
        x_velocity = x_ratio + 120
        x_lfo1 = x_velocity + 60
        x_lfo2 = x_lfo1 + 60
        x_external = x_lfo2 + 60
        x_keyscale = x_external + 60
        x_enable = x_keyscale + 90

        x_env = x0 - 22

        def norm_slider(param, x, y, height=150):
            s = cf.normalized_slider(canvas, param, editor)
            self.add_control(param, s)
            s.widget().place(x=x, y=y, height=height)
            return s

        def volume_slider(param, x, y, height=150):
            s = cf.volume_slider(canvas, param, editor)
            self.add_control(param, s)
            s.widget().place(x=x, y=y, height=height)
            return s

        def linear_slider(param, range_, x, y):
            s = cf.linear_slider(canvas, param, editor, range_=range_)
            self.add_control(param, s)
            s.widget().place(x=x, y=y)
            return s

        def tumbler(param, digits, scale, x, y):
            t = Tumbler(canvas, param, editor, digits=digits, scale=scale)
            self.add_control(param, t)
            t.layout((x, y))
            t.update_aspect()
            return t

        def msb_keyscale(param, x, y):
            count = len(KEYSCALES)
            msb = MSB(canvas, param, editor, count)
            for i, s in enumerate(KEYSCALES):
                d = {
                    "fill": CFILL,
                    "foreground": CFOREGROUND,
                    "outline": COUTLINE,
                    "value": s,
                    "text": "%+d" % s
                }
                msb.define_aspect(i, s, d)
            self.add_control(param, msb)
            msb.layout((x, y))
            msb.update_aspect()
            return msb

        def msb_keybreak(param, x, y):
            count = len(KEYBREAK)
            msb = MSB(canvas, param, editor, count)
            for i, s in enumerate(KEYBREAK):
                d = {
                    "fill": CFILL,
                    "foreground": CFOREGROUND,
                    "outline": COUTLINE,
                    "value": s,
                    "text": "%d" % s
                }
                msb.define_aspect(i, s, d)
            self.add_control(param, msb)
            msb.layout((x, y))
            msb.update_aspect()
            return msb

        def msb_modscale(param, x, y):
            count = len(MODSCALES)
            msb = MSB(canvas, param, editor, count)
            for i in MODSCALES:
                j = i + 1
                value = 10**i
                d = {
                    "fill": CFILL,
                    "foreground": CFOREGROUND,
                    "outline": COUTLINE,
                    "value": value,
                    "text": "x%d" % j
                }
                msb.define_aspect(i, value, d)
            self.add_control(param, msb)
            msb.layout((x, y))
            msb.update_aspect()

        tumbler("fm%d_ratio" % n, 5, 0.001, x_fm, y_mod)
        norm_slider("fm%d_lfo1" % n, x_mod_lfo1, y_mod)
        norm_slider("fm%d_lfo2" % n, x_mod_lfo2, y_mod)
        norm_slider("fm%d_external" % n, x_mod_external, y_mod)
        msb_keyscale("fm%d_left" % n, x_mod_keyscale, y_mod)
        msb_keyscale("fm%d_right" % n, x_mod_keyscale, y_mod + 70)
        msb_modscale("fm%d_modscale" % n, x_mod_amp, y_mod)
        norm_slider("fm%d_moddepth" % n,
                    x_mod_amp + 24,
                    y_mod + 50,
                    height=100)
        norm_slider("fm%d_lag" % n, x_fm + 30, y_mod + 75, height=75)

        tumbler("op%d_ratio" % n, 5, 0.001, x_ratio + 8, y_carrier)
        tumbler("op%d_bias" % n, 6, 0.001, x_ratio, y_carrier + 75)
        norm_slider("op%d_velocity" % n, x_velocity, y0)
        norm_slider("op%d_lfo1" % n, x_lfo1, y0)
        norm_slider("op%d_lfo2" % n, x_lfo2, y0)
        norm_slider("op%d_external" % n, x_external, y0)

        msb_keyscale("op%d_left" % n, x_keyscale, y0)
        msb_keyscale("op%d_right" % n, x_keyscale, y0 + 70)
        msb_keybreak("op%d_key" % n, x_keyscale, y0 + 140)

        penable = "op%d_enable" % n
        msb_enable = ToggleButton(canvas,
                                  penable,
                                  editor,
                                  fill=CFILL,
                                  foreground=CFOREGROUND,
                                  outline=COUTLINE,
                                  text=["Off", "Enabled"])
        self.add_control(penable, msb_enable)
        msb_enable.layout((x_enable, y0))
        msb_enable.update_aspect()
        volume_slider("op%d_amp" % n, x_enable + 24, y0 + 50, height=100)

        env_parameters = []
        for s in ("attack", "decay1", "decay2", "release", "breakpoint",
                  "sustain", "env_mode"):
            p = "op%d_%s" % (n, s)
            env_parameters.append(p)
        enved = ADDSREditor(canvas, n, (x_env, y_env), (800, 350),
                            env_parameters, editor, MAX_ENV_SEGMENT)
        self.add_child_editor("OP%dENV" % n, enved)
        enved.sync()

        y_extra = y_env + 30
        x_extra = x0 + 800

        if n == 3:
            # Add exgtra noise controls
            count = len(NOISE_BANDWIDTHS)
            msb = MSB(canvas, "nse3_bw", editor, count)
            for i, v in enumerate(NOISE_BANDWIDTHS):
                d = {
                    "fill": CFILL,
                    "foreground": CFOREGROUND,
                    "outline": COUTLINE,
                    "value": v,
                    "text": str(v)
                }
                msb.define_aspect(i, v, d)
            self.add_control("nse3_bw", msb)
            msb.layout((x_extra, y_extra))
            msb.update_aspect()
            norm_slider("nse3_mix", x_extra + 24, y_extra + 75)
        if n == 4:
            # Add buzz controls
            x_n = x_extra + 16
            x_env = x_n + 60
            x_lfo = x_env + 60
            x_lag = x_env
            x_mix = x_lag + 60
            linear_slider("bzz4_n", (1, 128), x_n, y_extra)
            linear_slider("bzz4_env", (-128, 128), x_env, y_extra)
            linear_slider("bzz4_lfo2", (0, 128), x_lfo, y_extra)
            norm_slider("bzz4_lag", x_lag, y_extra + 200, height=100)
            norm_slider("bzz4_mix", x_mix, y_extra + 200, height=100)
Exemple #43
0
    def __init__(self, editor):
        frame = editor.create_tab(self.NAME,self.TAB_FILE)
        frame.config(background=factory.bg())
        canvas = factory.canvas(frame, 811,700,self.IMAGE_FILE)
        canvas.pack()
        TkSubEditor.__init__(self, canvas, editor, self.NAME)
        editor.add_child_editor(self.NAME, self)
        y0 = 60
        ypan = y0 + 350
        ymod = ypan
        ymute = ymod + 150
        yledger = ymute+60
        x0 = 120
        xmain = x0+500
        
        def fader(chan, x):
            param = "gain%s" % chan
            s = cf.volume_slider(canvas, param, editor)
            self.add_control(param,s)
            s.widget().place(x=x, y=y0, height=300)

        def panner(chan, x):
            param = "pan%s" % chan
            s = cf.bipolar_slider(canvas,param,editor)
            self.add_control(param,s)
            s.widget().place(x=x, y=ypan, height=100)

        def mod_depth(chan, x):
            param = "mod%s" % chan
            s = cf.normalized_slider(canvas, param, editor)
            self.add_control(param, s)
            s.widget().place(x=x, y=ymod, height=100)

        def entry(x):
            var = StringVar()
            e = factory.entry(canvas,var)
            e.place(x=x,y=yledger, width=74)
            
        for i,prefix in enumerate("ABCD"):
            chan = "%s" % prefix
            x = x0 + i * 120
            x_pan = x
            x_mod = x+60
            fader(chan, x+30)
            panner(chan, x_pan)
            mod_depth(chan, x_mod)
            aoff = {'fill' : 'black',
                    'foreground' : 'gray',
                    'outline' : 'gray',
                    'text' : 'Mute'}
            aon = {'fill' : '#002e00',
                   'foreground' : 'white',
                   'outline' : '#096c00',
                   'text' : 'Mute'}
            msb_mute = MSB(canvas,"mute%s"%prefix,editor,2)
            self.add_control("mute%s"%prefix,msb_mute)
            msb_mute.define_aspect(0,0,aoff)
            msb_mute.define_aspect(1,1,aon)
            msb_mute.layout((x+7,ymute))
            msb_mute.update_aspect()
            entry(x)

        for i in range(2):
            x = xmain + i*60
            fader(str(i+1), x)
Exemple #44
0
    def __init__(self, editor):
        frame = editor.create_tab(self.NAME, self.TAB_FILE)
        frame.config(background=factory.bg())
        canvas = factory.canvas(frame, 1000, 700, self.IMAGE_FILE)
        canvas.pack()
        self.canvas = canvas
        self.editor = editor
        TkSubEditor.__init__(self, canvas, editor, self.NAME)
        editor.add_child_editor(self.NAME, self)

        cfill = "black"
        cforeground = "#c79fa1"
        coutline = "blue"
        csfill = "#005c56"
        csforeground = "white"

        y0 = 0
        ysliders = y0 + 192
        ywave = y0 + 128
        yclock = ywave
        yfilter = yclock
        yrsenable = y0 + 200

        x0 = 75
        xgain = x0 + 60
        xwave = x0 + 143
        xclock = xwave + 100
        xfilter = xclock + 100
        xefx = xgain + 395
        xdry = xgain + 455

        def volume_slider(param, x, y):
            s = cf.volume_slider(canvas, param, editor)
            self.add_control(param, s)
            s.widget().place(x=x, y=y)
            return s

        def linear_slider(param, range_, x, y):
            s = cf.linear_slider(canvas, param, editor, range_=range_)
            self.add_control(param, s)
            s.widget().place(x=x, y=y)
            return s

        linear_slider("gain", (0, 8), xgain, ysliders)

        msb_wave = MSB(canvas, "wave", editor, 5)
        for i, tx in enumerate(("Off", "Soft", "Clip", "Fold", "Wrap")):
            d = {
                "fill": cfill,
                "foreground": cforeground,
                "outline": coutline,
                "value": i,
                "text": tx
            }
            msb_wave.define_aspect(i, i, d)
        msb_wave.layout((xwave, ywave))
        msb_wave.update_aspect()

        msb_clock = MSB(canvas, "clockFreq", editor, len(CLOCK_FREQS))
        for i, freq in enumerate(CLOCK_FREQS):
            ad = {
                "fill": cfill,
                "foreground": cforeground,
                "outline": coutline,
                "text": str(freq),
                "value": freq
            }
            msb_clock.define_aspect(i, freq, ad)
        self.add_control("clockFreq", msb_clock)
        msb_clock.layout((xclock, yclock))
        msb_clock.update_aspect()

        msb_filter = MSB(canvas, "low", editor, len(LP_FREQS))
        for i, freq in enumerate(LP_FREQS):
            ad = {
                "fill": cfill,
                "foreground": cforeground,
                "outline": coutline,
                "text": str(freq),
                "value": freq
            }
            msb_filter.define_aspect(i, freq, ad)
        self.add_control("low", msb_filter)
        msb_filter.layout((xfilter, yfilter))
        msb_filter.update_aspect()

        volume_slider("wet", xefx, ysliders)
        volume_slider("dry", xdry, ysliders)

        tog_rs_enable = ToggleButton(canvas,
                                     "resampleEnable",
                                     editor,
                                     fill=cfill,
                                     foreground=cforeground,
                                     outline=coutline,
                                     selected_fill=csfill,
                                     selected_foreground=csforeground,
                                     text=["Off", "On"],
                                     values=[0, 1])
        self.add_control("resampleEnable", tog_rs_enable)
        tog_rs_enable.layout((xclock, yrsenable))
        tog_rs_enable.update_aspect()