def __init__(self, master, param, editor, include_off=False, ttip=""):
octaves = [(3, "+3"),
(2, "+2"),
(1, "+1"),
(0, " 0"),
(-1, "-1"),
(-2, "-2"),
(-3, "-3")]
if include_off:
octaves.append((ZERO_FREQ, "Off"))
frame = factory.frame(master)
super(OscFrequencyControl, self).__init__(param, editor, frame)
self.var_octave = tk.StringVar()
self.var_octave.set(0)
row = 1
for value, text in octaves:
rb = factory.radio(frame, text, self.var_octave, value, ttip,
command=self.callback)
widget_key = "radio_coarse_%s" % value
self._widgets[widget_key] = rb
rb.grid(row = row, column=0, sticky="w")
row += 1
self.scale_fine = factory.scale(frame, command=self.callback, ttip="Fine Frequency Scale")
self.scale_fine.grid(row=1, column=1, rowspan=row)
self.lab_freq = factory.label(frame, "X.XXXX")
self.lab_freq.grid(row=row+1, column=0, columnspan=2)
def __init__(self, master, param, editor, include_off=False, ttip=""):
octaves = [(3, "+3"),
(2, "+2"),
(1, "+1"),
(0, " 0"),
(-1, "-1"),
(-2, "-2"),
(-3, "-3")]
if include_off:
octaves.append((ZERO_FREQ, "Off"))
frame = factory.frame(master)
super(OscFrequencyControl, self).__init__(param, editor, frame)
self.var_octave = tk.StringVar()
self.var_octave.set(0)
row = 1
for value, text in octaves:
rb = factory.radio(frame, text, self.var_octave, value, ttip,
command=self.callback)
widget_key = "radio_coarse_%s" % value
self._widgets[widget_key] = rb
rb.grid(row = row, column=0, sticky="w")
row += 1
self.scale_fine = factory.scale(frame, command=self.callback, ttip="Fine Frequency Scale")
self.scale_fine.grid(row=1, column=1, rowspan=row)
self.lab_freq = factory.label(frame, "X.XXXX")
self.lab_freq.grid(row=row+1, column=0, columnspan=2)
def _layout_engion_selection(self, master):
var = Tkinter.StringVar()
frame = factory.frame(master)
frame.grid(row=1,column=1,sticky='n',padx=8)
rb_gen_random = factory.radio(frame,"Random",
var,"Random",
command = lambda : rndgen.set_engion("random"))
rb_gen_basic = factory.radio(frame,"Basic",
var,"Basic",
command = lambda : rndgen.set_engion("basic"))
rb_gen_chorus = factory.radio(frame,"Chorus",
var,"Chorus",
command = lambda : rndgen.set_engion("chorus"))
lab = factory.label(frame,"Engion")
lab.grid(row=0,column=0,sticky='w')
rb_gen_random.grid(row=1,column=0,sticky='w')
rb_gen_basic.grid(row=2,column=0,sticky='w')
rb_gen_chorus.grid(row=3,column=0,sticky='w')
def __init__(self, master, param, editor,
coarse = (0.001, 1000),
limit = (0.001, 9999)):
"""
Constructs new DecadeControl object.
ARGS:
master - The TK master widget for these components.
param - String, synth parameter.
editor - An instance of TkSubEditor
coarse - Tuple (a, b) sets range of coarse controls.
a and b must both be powers of 10 with a < b.
A radio button is created for each power of 10
between a and b.
limit - Tuple (mn, mx), sets minimum and maximum value.
"""
print("DEPRECIATION WARNING: DecadeCounter")
super(DecadeControl, self).__init__(param, editor, master)
self._min_value, self._max_value = limit
start, end = coarse
start, end = min(start, end), max(start, end)
decades = []
value = start
while value <= end:
power = log10(value)
if power == 0:
txt = "1"
elif power < 1:
txt = "1/%d" % int(10**abs(power))
else:
txt = str(int(10**power))
decades.append((value, txt))
value *= 10
decades.reverse()
self.var_decade = tk.StringVar()
self.var_scale = tk.IntVar()
self.var_decade.set(start)
self.var_scale.set(1)
self._radio_buttons = []
for value, txt in decades:
rb = factory.radio(master, txt, self.var_decade, value,
command=self.callback,
ttip = "%s range" % param)
widget_key = "radio-range-%d" % value
self._widgets[widget_key] = rb
self._radio_buttons.append(rb)
rb.bind("<Enter>", self.enter_callback)
s_scale = factory.scale(master, from_=90, to=0,
var = self.var_scale,
command = self.callback,
ttip = "%s scale" % param)
s_scale.bind("<Enter>", self.enter_callback)
self._widgets["slider"] = s_scale
lab_value = factory.label(master, "X.XXX")
self._widgets["label-value"] = lab_value
self._editor = editor
self._param = param
def __init__(self, master, param, editor):
"""
Create new OscFrequencyControl object.
Widgets are not automatically added to the Tk master. Call the
layout method to place widgets using a default layout.
ARGS:
param - String, SC synth parameter.
editor - An instance of TkSubEditor
master - Tk container.
"""
print("DEPRECIATION WARNING: OscFrequencyControl")
super(OscFrequencyControl, self).__init__(param, editor, master)
octaves = [(3, "+3"),(2, "+2"),(1, "+1"),(0, " 0"),
(-1,"-1"),(-2,"-2"),(-3,"-3")]
self.var_octave = tk.StringVar() # Octave number -3 ... +3
self.var_transpose = tk.IntVar() # Transpose steps, 0 ... 11
self.var_detune = tk.IntVar() # Detune in cents 0 ... 99
self.var_zero = tk.IntVar() # 0 -> osc != 0, 1 -> osc freq = 0
self.var_octave.set(0)
self.var_transpose.set(0)
self.var_detune.set(0)
self.var_zero.set(0)
self._radio_buttons = []
for value, text in octaves:
rb = factory.radio(master, text, self.var_octave, value,
command = self.callback,
ttip = "%s octave" % param)
widget_key = "radio-octave-%d" % value
self._widgets[widget_key] = rb
self._radio_buttons.append(rb)
rb.bind("<Enter>", self.enter_callback)
s_step = factory.scale(master, from_=11, to=0,
var = self.var_transpose,
command = self.callback,
ttip = "%s transpose (steps)" % param)
s_detune = factory.scale(master, from_=99, to=0,
var = self.var_detune,
command=self.callback,
ttip = "%s detune (cents)" % param)
cb_zero = factory.checkbutton(master, "Off")
cb_zero.config(command=self.callback,var = self.var_zero)
## Labels
lab_transpose = factory.label(master, "00")
lab_detune = factory.label(master, "000")
lab_value = factory.label(master, "1.0000")
self._widgets["scale-transpose"] = s_step
self._widgets["scale-detune"] = s_detune
self._widgets["checkbutton-zero"] = cb_zero
self._widgets["label-transpose"] = lab_transpose
self._widgets["label-detune"] = lab_detune
self._widgets["label-value"] = lab_value
self._editor = editor
self._param = param
s_step.bind("<Enter>", self.enter_callback)
s_detune.bind("<Enter>", self.enter_callback)
def __init__(self, master, param, editor, values):
super(DiscreateControl, self).__init__(param, editor, master)
self.var_value = tk.StringVar()
self.var_value.set(values[0][0])
self.radio_buttons = []
for value, text in values:
rb = factory.radio(master, text, self.var_value, value,
command=self.callback,
ttip = param)
widget_key = "radio-%s" % value
self.radio_buttons.append(rb)
self._widgets[widget_key] = rb
def _layout_env_time(self, master):
var = Tkinter.StringVar()
frame = factory.frame(master)
frame.grid(row=1,column=3,sticky='n',padx=8)
def select(n):
rndgen.gen_config["env-time-hint"] = n
rb_random = factory.radio(frame,"Random",var,7,
command=lambda : select(None))
rb_ufast = factory.radio(frame,"Ultra Fast",var,ULTRA_FAST,
command=lambda : select(ULTRA_FAST))
rb_fast = factory.radio(frame,"Fast",var,FAST,
command=lambda : select(FAST))
rb_med = factory.radio(frame,"Medium",var,MEDIUM,
command=lambda : select(MEDIUM))
rb_slow = factory.radio(frame,"Slow",var,SLOW,
command=lambda : select(SLOW))
rb_glac = factory.radio(frame,"Glacial",var,GLACIAL,
command=lambda : select(GLACIAL))
lab = factory.label(frame,"Envelope Times")
lab.grid(row=0,column=0,sticky='w')
rb_random.grid(row=1,column=0,sticky='w')
rb_ufast.grid(row=2,column=0,sticky='w')
rb_fast.grid(row=3,column=0,sticky='w')
rb_med.grid(row=4,column=0,sticky='w')
rb_slow.grid(row=5,column=0,sticky='w')
rb_glac.grid(row=6,column=0,sticky='w')
self._var_env_changeup = Tkinter.StringVar()
s = factory.scale(frame,from_=100,to=0,
var = self._var_env_changeup,
command=self._env_changeup_callback)
lab = factory.label(frame,"Env Changeup")
lab.grid(row=0,column=1,sticky='ew',padx=16)
s.grid(row=1,column=1,rowspan=6,sticky='ns')
def __init__(self, master, param, editor, values):
super(DiscreateControl, self).__init__(param, editor, master)
self.var_value = tk.StringVar()
self.var_value.set(values[0][0])
self.radio_buttons = []
for value, text in values:
rb = factory.radio(master,
text,
self.var_value,
value,
command=self.callback,
ttip=param)
widget_key = "radio-%s" % value
self.radio_buttons.append(rb)
self._widgets[widget_key] = rb
def _layout_env_type(self, master):
var = Tkinter.StringVar()
frame = factory.frame(master)
frame.grid(row=1,column=2,sticky='n',padx=8)
def select(n):
rndgen.gen_config["env-type-hint"] = n
rb_random = factory.radio(frame,"Random",var,5,
command = lambda : select(None))
rb_gate = factory.radio(frame,"Gate",var,GATE,
command = lambda : select(GATE))
rb_perc = factory.radio(frame,"Percussive",var,PERCUSSIVE,
command = lambda : select(PERCUSSIVE))
rb_asr = factory.radio(frame,"ASR",var,ASR,
command = lambda : select(ASR))
rb_adsr = factory.radio(frame,"ADSR",var,ADSR,
command = lambda : select(ADSR))
lab = factory.label(frame,"Envelope Type")
lab.grid(row=0,column=0,sticky='w')
rb_random.grid(row=1,column=0,sticky='w')
rb_gate.grid(row=2,column=0,sticky='w')
rb_perc.grid(row=3,column=0,sticky='w')
rb_asr.grid(row=4,column=0,sticky='w')
rb_adsr.grid(row=5,column=0,sticky='w')
def _build_south_panel(self, south):
self._midi_input_ports = mido.get_input_names()
self._midi_output_ports = mido.get_output_names()
port_rows = max(len(self._midi_input_ports),
len(self._midi_output_ports))
init_id = self.config.global_osc_id()
init_host = self.config["host"]
init_port = self.config["port"]
init_client = self.config["client"]
init_client_port = self.config["client_port"]
init_input = self.config["midi-receiver-name"]
init_output = self.config["midi-transmitter-name"]
self.var_id = StringVar()
self.var_host = StringVar()
self.var_port = StringVar()
self.var_client = StringVar()
self.var_client_port = StringVar()
self.var_input = StringVar()
self.var_output = StringVar()
def restore_defaults():
self.var_id.set(init_id)
self.var_host.set(init_host)
self.var_port.set(init_port)
self.var_client.set(init_client)
self.var_client_port.set(init_client_port)
self.var_input.set(init_input)
self.var_output.set(init_output)
restore_defaults()
e_id = factory.entry(south, self.var_id)
e_host = factory.entry(south, self.var_host)
e_port = factory.entry(south, self.var_port)
e_client = factory.entry(south, self.var_client)
e_client_port = factory.entry(south, self.var_client_port)
#factory.padding_label(south).grid(row=0, column=0, ipadx=8, ipady=8)
e_id.grid(row=1, column=1, columnspan=2)
e_host.grid(row=2, column=1, columnspan=2)
e_port.grid(row=2, column=5, columnspan=2)
e_client.grid(row=3, column=1, columnspan=2)
e_client_port.grid(row=3, column=5, columnspan=2)
port_count = max(len(self._midi_input_ports),
len(self._midi_output_ports))
lab_id = factory.label(south, "OSC ID")
lab_host = factory.label(south, "Host")
lab_host_port = factory.label(south, "Port")
lab_client = factory.label(south, "Client")
lab_client_port = factory.label(south, "Port")
lab_midi_input = factory.label(south, "MIDI Input")
lab_midi_output = factory.label(south, "MIDI Output")
# factory.padding_label(south).grid(row=4, column=3, ipadx=8, ipady=8)
lab_id.grid(row=1, column=0, columnspan=1, ipadx=8, ipady=8)
lab_host.grid(row=2, column=0, columnspan=1)
lab_host_port.grid(row=3, column=4, columnspan=1, ipadx=4)
lab_client.grid(row=3, column=0, columnspan=1)
lab_client_port.grid(row=3, column=4, columnspan=1)
lab_midi_input.grid(row=5, column=1, columnspan=2, ipady=8)
lab_midi_output.grid(row=5, column=5, columnspan=2, ipady=8)
for n,p in enumerate(self._midi_input_ports):
rb = factory.radio(south, str(p), self.var_input, str(p))
rb.grid(row=n+6, column=1, sticky="W")
for n,p in enumerate(self._midi_output_ports):
rb = factory.radio(south, str(p), self.var_output, str(p))
rb.grid(row=n+6, column=5, sticky="W")
factory.padding_label(south).grid(row=0, column=7, ipadx=36)
#b_restore = factory.button(south, "Restore", command=restore_defaults)
b_continue = factory.button(south, "Continue", command=self.accept)
b_help = factory.help_button(south)
b_help.config(command=self.display_help)
row = port_count + 6
#b_restore.grid(row=row, column=1, sticky="EW", pady=16)
b_continue.grid(row=row, column=1, sticky="EW", pady=16)
b_help.grid(row=row, column=3, padx=8, sticky="W")
self.lab_warning = factory.label(south, "")
self.lab_warning.config(foreground=factory.pallet("warning-fg"))
self.lab_warning.grid(row=6, column=7, sticky="EW",
columnspan=2, rowspan=4)
def __init__(self, master, synth, src, app):
Toplevel.__init__(self, master)
self.src = src
self.synth = synth
self.app = app
self.var_curve = StringVar()
self.var_modifier = StringVar()
self.var_range_low = StringVar()
self.var_range_high = StringVar()
self.var_limit_low = StringVar()
self.var_limit_high = StringVar()
self.var_curve.set("linear")
self.var_modifier.set("1.0")
self.var_range_low.set("0.0")
self.var_range_high.set("1.0")
self.var_limit_low.set("0.0")
self.var_limit_high.set("1.0")
frame = factory.frame(self, modal=True)
frame.pack(expand=True, fill="both")
lab_title = factory.label(frame, "Add MIDI Source Map", modal=True)
lab_title.grid(row=0, column=0, columnspan=4, padx=4, pady=8)
if src == "cc":
lab_src1 = factory.label(frame, "Controller", modal=True)
self.combo_source = factory.controller_combobox(frame, app)
lab_src1.grid(row=1, column=0, sticky="w", padx=4)
self.combo_source.grid(row=1, column=1)
else:
lab_src1 = factory.label(frame, "Source", modal=True)
lab_src2 = factory.label(frame, src, modal=True)
self.combo_source = factory.combobox(None, [src]) # Hidden
lab_src1.grid(row=1, column=0, sticky="w", padx=4)
lab_src2.grid(row=1, column=1, sticky="w")
lab_params = factory.label(frame, "Params", modal=True)
bnk = synth.bank()
params = sorted(bnk.template.keys())
self.combo_params = factory.combobox(frame, params,
"Synth parameters")
frame_curve = factory.label_frame(frame, "Curve", modal=True)
for i, c in enumerate((("Linear", "linear"),
("Exponential","exp"),
("Logistic (S)", "s"),
("Step","step"))):
rb = factory.radio(frame_curve, c[0], self.var_curve, c[1],
modal=True)
rb.config(command=self._auto_modifier_callback)
rb.grid(row=i, column=0, columnspan=2, sticky="w", padx=4)
lab_modifier = factory.label(frame_curve, "Modifier", modal=True)
spin_modifier = factory.float_spinbox(frame_curve,
self.var_modifier,
-10, 10, "Curve modifier")
lab_modifier.grid(row=4, column=0, padx=4, pady=8, sticky="w")
spin_modifier.grid(row=4, column=1)
frame_range = factory.label_frame(frame, "Range", modal=True)
lab_low = factory.label(frame_range, "Low", modal=True)
lab_high = factory.label(frame_range, "High", modal=True)
spin_range_low = factory.float_spinbox(frame_range,
self.var_range_low, -100, 100)
spin_range_low.config(command=self._auto_limit_callback)
spin_range_high = factory.float_spinbox(frame_range,
self.var_range_high, -100, 100)
spin_range_high.config(command=self._auto_limit_callback)
lab_low.grid(row=0, column=0, sticky="w", padx=4)
spin_range_low.grid(row=0, column=1, sticky="ew")
lab_high.grid(row=1, column=0, sticky="w", padx=4)
spin_range_high.grid(row=1, column=1, sticky="ew")
frame_limit = factory.label_frame(frame, "Limit", modal=True)
lab_low = factory.label(frame_limit, "Low", modal=True)
lab_high = factory.label(frame_limit, "High", modal=True)
spin_limit_low = factory.float_spinbox(frame_limit,
self.var_limit_low, -100, 100)
spin_limit_high = factory.float_spinbox(frame_limit,
self.var_limit_high, -100, 100)
lab_low.grid(row=0, column=0, sticky="w", padx=4)
spin_limit_low.grid(row=0, column=1, sticky="ew")
lab_high.grid(row=1, column=0, sticky="w", padx=4)
spin_limit_high.grid(row=1, column=1, sticky="ew")
toolbar = factory.frame(frame, modal=True)
b_help = factory.help_button(toolbar,command=self.help_callback)
b_restore = factory.clear_button(toolbar, ttip="Restore defaults",
command=self.restore_callback)
b_accept = factory.accept_button(toolbar,
command=self.accept_callback)
b_cancel = factory.cancel_button(toolbar,
command=self.cancel_callback)
b_help.grid(row=0, column=0, sticky="ew")
b_restore.grid(row=0, column=1, sticky="ew")
b_accept.grid(row=0, column=2, sticky="ew")
b_cancel.grid(row=0, column=3, sticky="ew")
lab_params.grid(row=2, column=0, padx=4, sticky="w")
self.combo_params.grid(row=2, column=1)
frame_curve.grid(row=3, column=0, columnspan=2,
padx=4, pady=8, sticky="ew")
frame_range.grid(row=4, column=0, columnspan=2,
padx=4, pady=4, sticky="ew")
frame_limit.grid(row=5, column=0, columnspan=2,
padx=4, pady=4, sticky="ew")
toolbar.grid(row=6, column=0, columnspan=4,
padx=4, pady=8, sticky="ew")
if src == "cc":
index = self.get_default_controller(synth)
if is_string(index):
index = int(index[1:4])
self.combo_source.current(index)
index = self.get_default_param(synth)
self.combo_params.set(index)
def _build_south_panel(self, south):
self._midi_input_ports = mido.get_input_names()
self._midi_output_ports = mido.get_output_names()
port_rows = max(len(self._midi_input_ports),
len(self._midi_output_ports))
init_id = self.config.global_osc_id()
init_host = self.config["host"]
init_port = self.config["port"]
init_client = self.config["client"]
init_client_port = self.config["client_port"]
init_input = self.config["midi-receiver-name"]
init_output = self.config["midi-transmitter-name"]
self.var_id = StringVar()
self.var_host = StringVar()
self.var_port = StringVar()
self.var_client = StringVar()
self.var_client_port = StringVar()
self.var_input = StringVar()
self.var_output = StringVar()
def restore_defaults():
self.var_id.set(init_id)
self.var_host.set(init_host)
self.var_port.set(init_port)
self.var_client.set(init_client)
self.var_client_port.set(init_client_port)
self.var_input.set(init_input)
self.var_output.set(init_output)
restore_defaults()
e_id = factory.entry(south, self.var_id)
e_host = factory.entry(south, self.var_host)
e_port = factory.entry(south, self.var_port)
e_client = factory.entry(south, self.var_client)
e_client_port = factory.entry(south, self.var_client_port)
#factory.padding_label(south).grid(row=0, column=0, ipadx=8, ipady=8)
e_id.grid(row=1, column=1, columnspan=2)
e_host.grid(row=2, column=1, columnspan=2)
e_port.grid(row=2, column=5, columnspan=2)
e_client.grid(row=3, column=1, columnspan=2)
e_client_port.grid(row=3, column=5, columnspan=2)
port_count = max(len(self._midi_input_ports),
len(self._midi_output_ports))
lab_id = factory.label(south, "OSC ID")
lab_host = factory.label(south, "Host")
lab_host_port = factory.label(south, "Port")
lab_client = factory.label(south, "Client")
lab_client_port = factory.label(south, "Port")
lab_midi_input = factory.label(south, "MIDI Input")
lab_midi_output = factory.label(south, "MIDI Output")
# factory.padding_label(south).grid(row=4, column=3, ipadx=8, ipady=8)
lab_id.grid(row=1, column=0, columnspan=1, ipadx=8, ipady=8)
lab_host.grid(row=2, column=0, columnspan=1)
lab_host_port.grid(row=3, column=4, columnspan=1, ipadx=4)
lab_client.grid(row=3, column=0, columnspan=1)
lab_client_port.grid(row=3, column=4, columnspan=1)
lab_midi_input.grid(row=5, column=1, columnspan=2, ipady=8)
lab_midi_output.grid(row=5, column=5, columnspan=2, ipady=8)
for n, p in enumerate(self._midi_input_ports):
rb = factory.radio(south, str(p), self.var_input, str(p))
rb.grid(row=n + 6, column=1, sticky="W")
for n, p in enumerate(self._midi_output_ports):
rb = factory.radio(south, str(p), self.var_output, str(p))
rb.grid(row=n + 6, column=5, sticky="W")
factory.padding_label(south).grid(row=0, column=7, ipadx=36)
#b_restore = factory.button(south, "Restore", command=restore_defaults)
b_continue = factory.button(south, "Continue", command=self.accept)
b_help = factory.help_button(south)
b_help.config(command=self.display_help)
row = port_count + 6
#b_restore.grid(row=row, column=1, sticky="EW", pady=16)
b_continue.grid(row=row, column=1, sticky="EW", pady=16)
b_help.grid(row=row, column=3, padx=8, sticky="W")
self.lab_warning = factory.label(south, "")
self.lab_warning.config(foreground=factory.pallet("warning-fg"))
self.lab_warning.grid(row=6,
column=7,
sticky="EW",
columnspan=2,
rowspan=4)
def __init__(self, master, app, synth_type, is_efx=False, is_controller=False):
Toplevel.__init__(self, master)
main = factory.frame(self)
main.pack(anchor=W, expand=True, fill=BOTH)
self.app = app
self.stype = synth_type
self.is_efx = is_efx
self.is_controller = is_controller
sid = "%s_%d" % (synth_type, SynthProxy.current_synth_serial_number())
specs = SynthSpecs.global_synth_type_registry[synth_type]
self._combo_audio_in = {} # Maps synth parameter to combo box
self._combo_audio_out = {}
self._combo_control_in = {}
self._combo_control_out = {}
self._buffername_map = {}
title = "Add %s " % synth_type
if is_efx:
title += "Effect"
elif is_controller:
title += "Controller Synth"
else:
title += "Synth"
title += " sid = %s" % sid
frame_north = factory.frame(main)
frame_north.grid(row=0, column=0, columnspan=2, sticky='ew', padx=4, pady=8)
logo_filename = os.path.join("resources", synth_type, "logo_small.png")
lab_logo = factory.image_label(frame_north, logo_filename, synth_type)
lab_id = factory.dialog_title_label(frame_north, title)
lab_logo.grid(row=0, column=0, padx=8)
lab_id.grid(row=0, column=1)
# Audio Input Buses
frame_audio_in = factory.label_frame(main, "Audio Input Buses")
row = 0
for i in range(MAX_BUS_COUNT):
try:
b = specs["audio-input-buses"][i]
param = b[0]
lab_name = factory.label(frame_audio_in, "%d - %s" % (i+1, param))
combo = factory.audio_bus_combobox(frame_audio_in, self.app)
combo.set(b[1])
lab_name.grid(row=row, column=0, sticky="w", padx=4, pady=4)
combo.grid(row=row, column=1, sticky="w", padx=4, pady=4)
self._combo_audio_in[param] = combo
except IndexError:
lab_dummy = factory.label(frame_audio_in, "%d - n/a" % (i+1, ))
lab_dummy.grid(row=row, column=0)
row += 1
factory.padding_label(frame_audio_in).grid(row=row, column=0)
frame_audio_in.grid(row=1, column=0, padx=4, pady=4, sticky='ew')
# Audio Output Buses
frame_audio_out = factory.label_frame(main, "Audio Output Buses")
row = 0
for i in range(MAX_BUS_COUNT):
try:
b = specs["audio-output-buses"][i]
param = b[0]
lab_name = factory.label(frame_audio_out, "%d - %s" % (i+1, param))
combo = factory.audio_bus_combobox(frame_audio_out, self.app)
combo.set(b[1])
lab_name.grid(row=row, column=0, sticky="w", padx=4, pady=4)
combo.grid(row=row, column=1, sticky="w", padx=4, pady=4)
self._combo_audio_out[param] = combo
except IndexError:
lab_dummy = factory.label(frame_audio_out, "%d - n/a" % (i+1,))
lab_dummy.grid(row=row, column=0)
row += 1
factory.padding_label(frame_audio_out).grid(row=row, column=0)
frame_audio_out.grid(row=5, column=0, padx=4, pady=4, sticky='ew')
# Control Input Buses
frame_control_in = factory.label_frame(main, "Control Input Buses")
row = 0
for i in range(MAX_BUS_COUNT):
try:
b = specs["control-input-buses"][i]
param = b[0]
lab_name = factory.label(frame_control_in, "%d - %s" % (i+1, param))
combo = factory.control_bus_combobox(frame_control_in, self.app)
combo.set(b[1])
lab_name.grid(row=row, column=0, sticky="w", padx=4, pady=4)
combo.grid(row=row, column=1, sticky="w", padx=4, pady=4)
self._combo_control_in[param] = combo
except IndexError:
lab_dummy = factory.label(frame_control_in, "%d - n/a" % (i+1, ))
lab_dummy.grid(row=row, column=0)
row += 1
factory.padding_label(frame_control_in).grid(row=row, column=0)
frame_control_in.grid(row=1, column=3, padx=4, pady=4, sticky='ew')
# Control Output Buses
frame_control_out = factory.label_frame(main, "Control Output Buses")
row = 0
for i in range(MAX_BUS_COUNT):
try:
b = specs["control-output-buses"][i]
param = b[0]
lab_name = factory.label(frame_control_out, "%d - %s" % (i+1, param))
combo = factory.control_bus_combobox(frame_control_out, self.app)
combo.set(b[1])
lab_name.grid(row=row, column=0, sticky="w", padx=4, pady=4)
combo.grid(row=row, column=1, sticky="w", padx=4, pady=4)
self._combo_control_out[param] = combo
except IndexError:
lab_dummy = factory.label(frame_control_out, "%d - n/a" % (i+1, ))
lab_dummy.grid(row=row, column=0)
row += 1
factory.padding_label(frame_control_out).grid(row=row, column=0)
frame_control_out.grid(row=5, column=3, padx=4, pady=4, sticky='ew')
# Buffers
# if specs["buffers"]:
# frame_buffers = factory.label_frame(main, "Buffers")
# row = 0
# for param in specs["buffers"]:
# lab_name = factory.label(frame_buffers, param)
# combo = factory.buffer_combobox(frame_buffers, self.app)
# lab_name.grid(row=row, column=0, sticky="w", padx=4, pady=4)
# combo.grid(row=row, column=1, sticky="w", padx=4, pady=4)
# self._buffername_map[param] = combo
# row += 1
# factory.padding_label(frame_buffers).grid(row=row, column=0, sticky='ew')
# frame_buffers.grid(row=9, column=3, padx=4, pady=4)
# Keymode
self.var_keymode = StringVar()
self.var_voice_count = StringVar()
self.var_voice_count.set(8)
frame_keymode = factory.label_frame(main, "Key mode")
col = 0
for km in specs["keymodes"]:
rb = factory.radio(frame_keymode, km, self.var_keymode, km)
rb.grid(row=0, column=col, sticky="w", padx=4, pady=4)
col += 1
self.var_keymode.set(specs["keymodes"][0]) # Set default keymode
lab_vc = factory.label(frame_keymode, "Voice count")
spin_vc = factory.int_spinbox(frame_keymode, self.var_voice_count, from_=1, to=128)
lab_vc.grid(row=1, column=0, padx=4)
spin_vc.grid(row=1, column=1, columnspan=3, padx=4, pady=4)
frame_keymode.grid(row=9, column=0, padx=4, pady=4, sticky='ew')
factory.padding_label(frame_keymode).grid(row=2, column=0)
# South Toolbar
toolbar = factory.frame(main)
b_help = factory.help_button(toolbar, command=self.display_help)
b_accept = factory.accept_button(toolbar, command=self.accept)
b_cancel = factory.cancel_button(toolbar, command=self.cancel)
b_help.grid(row=0, column=0, sticky="w")
factory.padding_label(toolbar).grid(row=0, column=1)
b_accept.grid(row=0, column=2, sticky="e")
b_cancel.grid(row=0, column=3, sticky="e")
toolbar.grid(row=10, column=0, columnspan=5, sticky="ew", padx=4, pady=8)
def __init__(self,
master,
param,
editor,
coarse=(0.001, 1000),
limit=(0.001, 9999)):
"""
Constructs new DecadeControl object.
ARGS:
master - The TK master widget for these components.
param - String, synth parameter.
editor - An instance of TkSubEditor
coarse - Tuple (a, b) sets range of coarse controls.
a and b must both be powers of 10 with a < b.
A radio button is created for each power of 10
between a and b.
limit - Tuple (mn, mx), sets minimum and maximum value.
"""
print("DEPRECIATION WARNING: DecadeCounter")
super(DecadeControl, self).__init__(param, editor, master)
self._min_value, self._max_value = limit
start, end = coarse
start, end = min(start, end), max(start, end)
decades = []
value = start
while value <= end:
power = log10(value)
if power == 0:
txt = "1"
elif power < 1:
txt = "1/%d" % int(10**abs(power))
else:
txt = str(int(10**power))
decades.append((value, txt))
value *= 10
decades.reverse()
self.var_decade = tk.StringVar()
self.var_scale = tk.IntVar()
self.var_decade.set(start)
self.var_scale.set(1)
self._radio_buttons = []
for value, txt in decades:
rb = factory.radio(master,
txt,
self.var_decade,
value,
command=self.callback,
ttip="%s range" % param)
widget_key = "radio-range-%d" % value
self._widgets[widget_key] = rb
self._radio_buttons.append(rb)
rb.bind("<Enter>", self.enter_callback)
s_scale = factory.scale(master,
from_=90,
to=0,
var=self.var_scale,
command=self.callback,
ttip="%s scale" % param)
s_scale.bind("<Enter>", self.enter_callback)
self._widgets["slider"] = s_scale
lab_value = factory.label(master, "X.XXX")
self._widgets["label-value"] = lab_value
self._editor = editor
self._param = param
def __init__(self, master, param, editor):
"""
Create new OscFrequencyControl object.
Widgets are not automatically added to the Tk master. Call the
layout method to place widgets using a default layout.
ARGS:
param - String, SC synth parameter.
editor - An instance of TkSubEditor
master - Tk container.
"""
print("DEPRECIATION WARNING: OscFrequencyControl")
super(OscFrequencyControl, self).__init__(param, editor, master)
octaves = [(3, "+3"), (2, "+2"), (1, "+1"), (0, " 0"), (-1, "-1"),
(-2, "-2"), (-3, "-3")]
self.var_octave = tk.StringVar() # Octave number -3 ... +3
self.var_transpose = tk.IntVar() # Transpose steps, 0 ... 11
self.var_detune = tk.IntVar() # Detune in cents 0 ... 99
self.var_zero = tk.IntVar() # 0 -> osc != 0, 1 -> osc freq = 0
self.var_octave.set(0)
self.var_transpose.set(0)
self.var_detune.set(0)
self.var_zero.set(0)
self._radio_buttons = []
for value, text in octaves:
rb = factory.radio(master,
text,
self.var_octave,
value,
command=self.callback,
ttip="%s octave" % param)
widget_key = "radio-octave-%d" % value
self._widgets[widget_key] = rb
self._radio_buttons.append(rb)
rb.bind("<Enter>", self.enter_callback)
s_step = factory.scale(master,
from_=11,
to=0,
var=self.var_transpose,
command=self.callback,
ttip="%s transpose (steps)" % param)
s_detune = factory.scale(master,
from_=99,
to=0,
var=self.var_detune,
command=self.callback,
ttip="%s detune (cents)" % param)
cb_zero = factory.checkbutton(master, "Off")
cb_zero.config(command=self.callback, var=self.var_zero)
## Labels
lab_transpose = factory.label(master, "00")
lab_detune = factory.label(master, "000")
lab_value = factory.label(master, "1.0000")
self._widgets["scale-transpose"] = s_step
self._widgets["scale-detune"] = s_detune
self._widgets["checkbutton-zero"] = cb_zero
self._widgets["label-transpose"] = lab_transpose
self._widgets["label-detune"] = lab_detune
self._widgets["label-value"] = lab_value
self._editor = editor
self._param = param
s_step.bind("<Enter>", self.enter_callback)
s_detune.bind("<Enter>", self.enter_callback)
def __init__(self,
master,
app,
synth_type,
is_efx=False,
is_controller=False):
Toplevel.__init__(self, master)
main = factory.frame(self)
main.pack(anchor=W, expand=True, fill=BOTH)
self.app = app
self.stype = synth_type
self.is_efx = is_efx
self.is_controller = is_controller
sid = "%s_%d" % (synth_type, SynthProxy.current_synth_serial_number())
specs = SynthSpecs.global_synth_type_registry[synth_type]
self._combo_audio_in = {} # Maps synth parameter to combo box
self._combo_audio_out = {}
self._combo_control_in = {}
self._combo_control_out = {}
self._buffername_map = {}
title = "Add %s " % synth_type
if is_efx:
title += "Effect"
elif is_controller:
title += "Controller Synth"
else:
title += "Synth"
title += " sid = %s" % sid
frame_north = factory.frame(main)
frame_north.grid(row=0,
column=0,
columnspan=2,
sticky='ew',
padx=4,
pady=8)
logo_filename = os.path.join("resources", synth_type, "logo_small.png")
lab_logo = factory.image_label(frame_north, logo_filename, synth_type)
lab_id = factory.dialog_title_label(frame_north, title)
lab_logo.grid(row=0, column=0, padx=8)
lab_id.grid(row=0, column=1)
# Audio Input Buses
frame_audio_in = factory.label_frame(main, "Audio Input Buses")
row = 0
for i in range(MAX_BUS_COUNT):
try:
b = specs["audio-input-buses"][i]
param = b[0]
lab_name = factory.label(frame_audio_in,
"%d - %s" % (i + 1, param))
combo = factory.audio_bus_combobox(frame_audio_in, self.app)
combo.set(b[1])
lab_name.grid(row=row, column=0, sticky="w", padx=4, pady=4)
combo.grid(row=row, column=1, sticky="w", padx=4, pady=4)
self._combo_audio_in[param] = combo
except IndexError:
lab_dummy = factory.label(frame_audio_in,
"%d - n/a" % (i + 1, ))
lab_dummy.grid(row=row, column=0)
row += 1
factory.padding_label(frame_audio_in).grid(row=row, column=0)
frame_audio_in.grid(row=1, column=0, padx=4, pady=4, sticky='ew')
# Audio Output Buses
frame_audio_out = factory.label_frame(main, "Audio Output Buses")
row = 0
for i in range(MAX_BUS_COUNT):
try:
b = specs["audio-output-buses"][i]
param = b[0]
lab_name = factory.label(frame_audio_out,
"%d - %s" % (i + 1, param))
combo = factory.audio_bus_combobox(frame_audio_out, self.app)
combo.set(b[1])
lab_name.grid(row=row, column=0, sticky="w", padx=4, pady=4)
combo.grid(row=row, column=1, sticky="w", padx=4, pady=4)
self._combo_audio_out[param] = combo
except IndexError:
lab_dummy = factory.label(frame_audio_out,
"%d - n/a" % (i + 1, ))
lab_dummy.grid(row=row, column=0)
row += 1
factory.padding_label(frame_audio_out).grid(row=row, column=0)
frame_audio_out.grid(row=5, column=0, padx=4, pady=4, sticky='ew')
# Control Input Buses
frame_control_in = factory.label_frame(main, "Control Input Buses")
row = 0
for i in range(MAX_BUS_COUNT):
try:
b = specs["control-input-buses"][i]
param = b[0]
lab_name = factory.label(frame_control_in,
"%d - %s" % (i + 1, param))
combo = factory.control_bus_combobox(frame_control_in,
self.app)
combo.set(b[1])
lab_name.grid(row=row, column=0, sticky="w", padx=4, pady=4)
combo.grid(row=row, column=1, sticky="w", padx=4, pady=4)
self._combo_control_in[param] = combo
except IndexError:
lab_dummy = factory.label(frame_control_in,
"%d - n/a" % (i + 1, ))
lab_dummy.grid(row=row, column=0)
row += 1
factory.padding_label(frame_control_in).grid(row=row, column=0)
frame_control_in.grid(row=1, column=3, padx=4, pady=4, sticky='ew')
# Control Output Buses
frame_control_out = factory.label_frame(main, "Control Output Buses")
row = 0
for i in range(MAX_BUS_COUNT):
try:
b = specs["control-output-buses"][i]
param = b[0]
lab_name = factory.label(frame_control_out,
"%d - %s" % (i + 1, param))
combo = factory.control_bus_combobox(frame_control_out,
self.app)
combo.set(b[1])
lab_name.grid(row=row, column=0, sticky="w", padx=4, pady=4)
combo.grid(row=row, column=1, sticky="w", padx=4, pady=4)
self._combo_control_out[param] = combo
except IndexError:
lab_dummy = factory.label(frame_control_out,
"%d - n/a" % (i + 1, ))
lab_dummy.grid(row=row, column=0)
row += 1
factory.padding_label(frame_control_out).grid(row=row, column=0)
frame_control_out.grid(row=5, column=3, padx=4, pady=4, sticky='ew')
# Buffers
# if specs["buffers"]:
# frame_buffers = factory.label_frame(main, "Buffers")
# row = 0
# for param in specs["buffers"]:
# lab_name = factory.label(frame_buffers, param)
# combo = factory.buffer_combobox(frame_buffers, self.app)
# lab_name.grid(row=row, column=0, sticky="w", padx=4, pady=4)
# combo.grid(row=row, column=1, sticky="w", padx=4, pady=4)
# self._buffername_map[param] = combo
# row += 1
# factory.padding_label(frame_buffers).grid(row=row, column=0, sticky='ew')
# frame_buffers.grid(row=9, column=3, padx=4, pady=4)
# Keymode
self.var_keymode = StringVar()
self.var_voice_count = StringVar()
self.var_voice_count.set(8)
frame_keymode = factory.label_frame(main, "Key mode")
col = 0
for km in specs["keymodes"]:
rb = factory.radio(frame_keymode, km, self.var_keymode, km)
rb.grid(row=0, column=col, sticky="w", padx=4, pady=4)
col += 1
self.var_keymode.set(specs["keymodes"][0]) # Set default keymode
lab_vc = factory.label(frame_keymode, "Voice count")
spin_vc = factory.int_spinbox(frame_keymode,
self.var_voice_count,
from_=1,
to=128)
lab_vc.grid(row=1, column=0, padx=4)
spin_vc.grid(row=1, column=1, columnspan=3, padx=4, pady=4)
frame_keymode.grid(row=9, column=0, padx=4, pady=4, sticky='ew')
factory.padding_label(frame_keymode).grid(row=2, column=0)
# South Toolbar
toolbar = factory.frame(main)
b_help = factory.help_button(toolbar, command=self.display_help)
b_accept = factory.accept_button(toolbar, command=self.accept)
b_cancel = factory.cancel_button(toolbar, command=self.cancel)
b_help.grid(row=0, column=0, sticky="w")
factory.padding_label(toolbar).grid(row=0, column=1)
b_accept.grid(row=0, column=2, sticky="e")
b_cancel.grid(row=0, column=3, sticky="e")
toolbar.grid(row=10,
column=0,
columnspan=5,
sticky="ew",
padx=4,
pady=8)