nvda-voicemeeter/src/nvda_voicemeeter/builder.py

345 lines
12 KiB
Python

import PySimpleGUI as psg
from .util import (
get_asio_checkbox_index,
get_asio_samples_list,
get_input_device_list,
get_insert_checkbox_index,
get_output_device_list,
get_patch_composite_list,
get_tabs_labels,
)
class Builder:
"""Responsible for building the Window layout"""
def __init__(self, window):
self.window = window
self.vm = self.window.vm
self.kind = self.vm.kind
def run(self) -> list:
menu = [[self.make_menu()]]
layout0 = []
if self.kind.name == "basic":
steps = (
self.make_tab0_row0,
self.make_tab0_row1,
self.make_tab0_row5,
)
else:
steps = (
self.make_tab0_row0,
self.make_tab0_row1,
self.make_tab0_row2,
self.make_tab0_row3,
self.make_tab0_row4,
self.make_tab0_row5,
)
for step in steps:
layout0.append([step()])
layout1 = []
steps = (self.make_tab1_rows,)
for step in steps:
layout1.append([step()])
layout2 = []
steps = (self.make_tab2_rows,)
for step in steps:
layout2.append([step()])
layout3 = []
steps = (self.make_tab3_rows,)
for step in steps:
layout3.append([step()])
layouts = [layout0, layout1, layout2, layout3]
tabs = [psg.Tab(identifier, layouts[i], key=identifier) for i, identifier in enumerate(get_tabs_labels())]
tab_group = psg.TabGroup([tabs], change_submits=True, key="tabs")
return [[menu], [tab_group]]
def make_menu(self) -> psg.Menu:
menu_def = [
[
"&Voicemeeter",
[
"Restart Audio Engine::MENU",
"Save Settings::MENU",
"Load Settings::MENU",
"Load Settings on Startup ::MENU",
],
],
]
return psg.Menu(menu_def, key="menus")
def make_tab0_row0(self) -> psg.Frame:
"""tab0 row0 represents hardware ins"""
def add_physical_device_opts(layout):
devices = get_input_device_list(self.vm)
devices.append("- remove device selection -")
layout.append(
[
psg.ButtonMenu(
f"IN {i + 1}",
size=(6, 3),
menu_def=["", devices],
key=f"HARDWARE IN||{i + 1}",
)
for i in range(self.kind.phys_in)
]
)
hardware_in = list()
[step(hardware_in) for step in (add_physical_device_opts,)]
return psg.Frame("Hardware In", hardware_in)
def make_tab0_row1(self) -> psg.Frame:
"""tab0 row1 represents hardware outs"""
def add_physical_device_opts(layout):
if self.kind.name == "basic":
num_outs = self.kind.phys_out + self.kind.virt_out
else:
num_outs = self.kind.phys_out
layout.append(
[
psg.ButtonMenu(
f"A{i + 1}",
size=(6, 3),
menu_def=["", get_output_device_list(i, self.vm)],
key=f"HARDWARE OUT||A{i + 1}",
)
for i in range(num_outs)
]
)
hardware_out = list()
[step(hardware_out) for step in (add_physical_device_opts,)]
return psg.Frame("Hardware Out", hardware_out)
def make_tab0_row2(self) -> psg.Frame:
"""tab0 row2 represents patch asio inputs to strips"""
def add_asio_checkboxes(layout, i):
nums = list(range(99))
layout.append(
[
psg.Spin(
nums,
initial_value=self.window.cache["asio"][f"ASIO CHECKBOX||{get_asio_checkbox_index(0, i)}"],
size=2,
enable_events=True,
key=f"ASIO CHECKBOX||IN{i} 0",
)
],
)
layout.append(
[
psg.Spin(
nums,
initial_value=self.window.cache["asio"][f"ASIO CHECKBOX||{get_asio_checkbox_index(1, i)}"],
size=2,
enable_events=True,
key=f"ASIO CHECKBOX||IN{i} 1",
)
],
)
inner = list()
asio_checkboxlists = ([] for _ in range(self.kind.phys_out))
for i, checkbox_list in enumerate(asio_checkboxlists):
[step(checkbox_list, i + 1) for step in (add_asio_checkboxes,)]
inner.append(psg.Frame(f"In#{i + 1}", checkbox_list))
asio_checkboxes = [inner]
return psg.Frame("PATCH ASIO Inputs to Strips", asio_checkboxes)
def make_tab0_row3(self) -> psg.Frame:
"""tab0 row3 represents patch composite"""
def add_physical_device_opts(layout):
outputs = get_patch_composite_list(self.vm.kind)
layout.append(
[
psg.ButtonMenu(
f"PC{i + 1}",
size=(6, 2),
menu_def=["", outputs],
key=f"PATCH COMPOSITE||PC{i + 1}",
)
for i in range(self.kind.phys_out)
]
)
hardware_out = list()
[step(hardware_out) for step in (add_physical_device_opts,)]
return psg.Frame("PATCH COMPOSITE", hardware_out)
def make_tab0_row4(self) -> psg.Frame:
"""tab0 row4 represents patch insert"""
def add_insert_checkboxes(layout, i):
if i <= self.kind.phys_in:
[
layout.append(
[
psg.Checkbox(
text=channel,
default=self.vm.patch.insert[get_insert_checkbox_index(self.kind, j, i)].on,
enable_events=True,
key=f"INSERT CHECKBOX||IN{i} {j}",
)
],
)
for j, channel in enumerate(("LEFT", "RIGHT"))
]
else:
layout.append(
[
psg.Checkbox(
text=channel,
default=self.vm.patch.insert[get_insert_checkbox_index(self.kind, j, i)].on,
enable_events=True,
key=f"INSERT CHECKBOX||IN{i} {j}",
)
for j, channel in enumerate(("LEFT", "RIGHT", "C", "LFE", "SL", "SR", "BL", "BR"))
],
)
asio_checkboxes = list()
inner = list()
checkbox_lists = ([] for _ in range(self.kind.num_strip))
for i, checkbox_list in enumerate(checkbox_lists):
if i < self.kind.phys_in:
[step(checkbox_list, i + 1) for step in (add_insert_checkboxes,)]
inner.append(psg.Frame(f"In#{i + 1}", checkbox_list))
else:
[step(checkbox_list, i + 1) for step in (add_insert_checkboxes,)]
asio_checkboxes.append([psg.Frame(f"In#{i + 1}", checkbox_list)])
asio_checkboxes.insert(0, inner)
return psg.Frame("PATCH INSERT", asio_checkboxes)
def make_tab0_row5(self) -> psg.Frame:
"""tab0 row5 represents advanced settings"""
return psg.Frame(
"ADVANCED SETTINGS",
[
[
psg.Button(
"ADVANCED SETTINGS",
size=(20, 2),
key="ADVANCED SETTINGS",
)
],
],
key="ADVANCED SETTINGS FRAME",
)
def make_tab1_row(self, i) -> psg.Frame:
"""tab1 row represents a strip's outputs (A1-A5, B1-B3)"""
def add_strip_outputs(layout):
layout.append(
[
psg.Button(
f"A{j + 1}" if j < self.kind.phys_out else f"B{j - self.kind.phys_out + 1}",
size=(4, 2),
key=f"STRIP {i}||A{j + 1}"
if j < self.kind.phys_out
else f"STRIP {i}||B{j - self.kind.phys_out + 1}",
)
for j in range(self.kind.phys_out + self.kind.virt_out)
],
)
layout.append(
[
psg.Button("Mono", size=(6, 2), key=f"STRIP {i}||MONO"),
psg.Button("Solo", size=(6, 2), key=f"STRIP {i}||SOLO"),
psg.Button("Mute", size=(6, 2), key=f"STRIP {i}||MUTE"),
],
)
outputs = list()
[step(outputs) for step in (add_strip_outputs,)]
return psg.Frame(self.window.cache["labels"][f"STRIP {i}||LABEL"], outputs, key=f"STRIP {i}||LABEL")
def make_tab1_rows(self) -> psg.Frame:
layout = [[self.make_tab1_row(i)] for i in range(self.kind.phys_in)]
return psg.Frame(None, layout, border_width=0)
def make_tab2_row(self, i) -> psg.Frame:
"""tab2 row represents a strip's outputs (A1-A5, B1-B3)"""
def add_strip_outputs(layout):
layout.append(
[
psg.Button(
f"A{j + 1}" if j < self.kind.phys_out else f"B{j - self.kind.phys_out + 1}",
size=(4, 2),
key=f"STRIP {i}||A{j + 1}"
if j < self.kind.phys_out
else f"STRIP {i}||B{j - self.kind.phys_out + 1}",
)
for j in range(self.kind.phys_out + self.kind.virt_out)
]
)
if i == self.kind.phys_in + 1:
layout.append(
[
psg.Button("K", size=(6, 2), key=f"STRIP {i}||MONO"),
psg.Button("Solo", size=(6, 2), key=f"STRIP {i}||SOLO"),
psg.Button("Mute", size=(6, 2), key=f"STRIP {i}||MUTE"),
],
)
else:
layout.append(
[
psg.Button("MC", size=(6, 2), key=f"STRIP {i}||MONO"),
psg.Button("Solo", size=(6, 2), key=f"STRIP {i}||SOLO"),
psg.Button("Mute", size=(6, 2), key=f"STRIP {i}||MUTE"),
],
)
outputs = list()
[step(outputs) for step in (add_strip_outputs,)]
return psg.Frame(self.window.cache["labels"][f"STRIP {i}||LABEL"], outputs, key=f"STRIP {i}||LABEL")
def make_tab2_rows(self) -> psg.Frame:
layout = [[self.make_tab2_row(i)] for i in range(self.kind.phys_in, self.kind.phys_in + self.kind.virt_in)]
return psg.Frame(None, layout, border_width=0)
def make_tab3_row(self, i) -> psg.Frame:
"""tab3 row represents bus composite toggle"""
def add_strip_outputs(layout):
params = ["MONO", "EQ", "MUTE", "MODE"]
if self.vm.kind.name == "basic":
params.remove("EQ")
label = {"MODE": "BUSMODE"}
layout.append(
[
psg.Button(
label.get(param, param.capitalize()),
size=(12 if param == "MODE" else 6, 2),
key=f"BUS {i}||{param}",
)
for param in params
]
)
outputs = list()
[step(outputs) for step in (add_strip_outputs,)]
return psg.Frame(self.window.cache["labels"][f"BUS {i}||LABEL"], outputs, key=f"BUS {i}||LABEL")
def make_tab3_rows(self) -> psg.Frame:
layout = [[self.make_tab3_row(i)] for i in range(self.kind.num_bus)]
return psg.Frame(None, layout, border_width=0)