adds sliders to on_pdirty

bump to b2
bump to 0.2.1.b1
2026-04-07 18:03:35 +00:00 · 2023-09-17 14:49:42 +01:00 · 2023-09-17 12:36:15 +01:00 · 2023-09-17 12:23:04 +01:00 · 2023-09-17 12:09:38 +01:00 · 2023-09-17 12:07:14 +01:00
13 changed files with 1326 additions and 290 deletions
--- a/README.md
+++ b/README.md
@@ -1 +1,135 @@
-# example-package
+[![pdm-managed](https://img.shields.io/badge/pdm-managed-blueviolet)](https://pdm.fming.dev)
 [![Code style: black](https://img.shields.io/badge/code%20style-black-000000.svg)](https://github.com/psf/black)
 [![Imports: isort](https://img.shields.io/badge/%20imports-isort-%231674b1?style=flat&labelColor=ef8336)](https://pycqa.github.io/isort/)
 # NVDA Voicemeeter
 A remote control app for [Voicemeeter][voicemeeter], designed to be used with the [NVDA screen reader][nvda].
 For an outline of this projects goals see the [SPECIFICATION][spec].
 <img src="./img/settings.png" width=350 alt="Image of Voicemeeter NVDA app settings tab">
 ## Requirements
 - [NVDA screen reader][nvda]
 - [NVDA's Controller Client files][controller_client]
 - Python 3.10 or greater
 ### Installation
 #### `From Source`
 First clone the source files from this repository and install the dependencies.
 ```
 git clone https://github.com/onyx-and-iris/nvda-voicemeeter.git
 cd nvda-voicemeeter
 pip install .
 ```
 Then download the [Controller Client][controller_client] and place the dll files into the directory `controllerClient`.
 Your directory structure should look like this:
 ├── `controllerClient/`
 &nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;├── `x64/`
 &nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;├── nvdaControllerClient64.dll
 &nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;├── `x86/`
 &nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;├── nvdaControllerClient32.dll
 #### `From Releases`
 If you want to get started quickly and easily I have uploaded some compiled versions of the app in the [Releases][releases] section.
 ### Run
 Once the repository is downloaded and the controller client files in place you can launch the GUI with the following `__main__.py`:
 ```python
 import voicemeeterlib
 import nvda_voicemeeter
 KIND_ID = "potato"
 with voicemeeterlib.api(KIND_ID, sync=True) as vm:
    with nvda_voicemeeter.draw(KIND_ID, vm) as window:
        window.run()
 ```
 ### KIND_ID
 May be one of the following:
 - `basic`
 - `banana`
 - `potato`
 ### Use
 #### `Tabs`
 The app presents four tabs `Settings`, `Physical Strip`, `Virtual Strip` and `Buses`. Navigate between the tabs with `Control + TAB` and `Control + SHIFT + TAB` or once focused on any tab, `Left` and `Right` arrow keys.
 All controls within the tabs may be navigated between using `TAB`.
 #### `Settings`
 The following controls offer context menus accessed by pressing `SPACE` or `ENTER`:
 - Hardware In
 - Hardware Out
 - Patch Composite
 Press `ESCAPE` to exit any context menu.
 All other buttons can be triggered by pressing `SPACE` or `ENTER`.
 To adjust Patch Asio Inputs to Strips and Patch Insert values use `UP` and `DOWN` arrows when in focus.
 To access Advanced Settings you may press the Advanced Settings button or use `Control + A` when in the `Settings` tab.
 #### `Strip/Bus`
 To rename a strip/bus channel navigate to the relevant tab, then press `F2`. This will open a popup window where you can set the channel index (with a spinbox) and set the new label using a text input box.
 Pressing the `OK` button with an empty text input will clear the label. In this case the label will be read as a default value for that channel. For example, if the leftmost Strip label were cleared, the screen reader will now read `Hardware Input 1`.
 Pressing `Cancel` will close the popup window with no affect on the label.
 #### `Menu`
 A single menu item `Voicemeeter` can be opened using `Alt` and then `v`. The menu allows you to:
 - Restart Voicemeeter audio engine
 - Save/Load current settings (as an xml file)
 - Set a config to load automatically on app startup.
 The `Save Settings` option opens a popup window with two buttons, `Browse` and `Cancel`. Browse opens a Save As dialog, Cancel returns to the main app window.
 `Load Settings` and `Load on Startup` both open an Open dialog box immediately.
 ### Issues
 If you have any questions/suggestions feel free to raise an issue or open a new discussion.
 ### Special Thanks
 [Mario Loreti](https://www.marioloreti.net/en/) for his help in testing and offering feedback during development.
 [NVAccess](https://www.nvaccess.org/) for creating the open source NVDA screen reader and its controller client.
 [Vincent Burel](https://github.com/vburel2018) for creating Voicemeeter and its SDK.
 [PySimpleGUI](https://github.com/PySimpleGUI) team for creating an awesome GUI framework.
 [spec]: ./SPECIFICATION.md
 [voicemeeter]: https://voicemeeter.com/
 [nvda]: https://www.nvaccess.org/
 [controller_client]: https://github.com/nvaccess/nvda/tree/master/extras/controllerClient
 [releases]: https://github.com/onyx-and-iris/nvda-voicemeeter/releases
--- a/SPECIFICATION.md
+++ b/SPECIFICATION.md
@@ -0,0 +1,30 @@
 # Software Specification
 ## Description
 A remote control utility for Voicemeeter designed to be used with the NVDA screen reader.
 ## Requirements
 #### Functional Goals
 - Parameter updates caused by user input should be read back to the user via the screen reader.
 - When focusing a control the current value for that control should be read back to the user.
 - The application should scale correctly according to each kind of Voicemeeter (basic, banana, potato). This means the following:
  - Correct number of strips/buses.
  - Correct number of bus assignments for each strip.
  - Where certain controls are valid for one kind they may not be for another.
 - Where possible set limits on data entry and keep controls appropriate for the type of parameter.
 #### Accessibility Goals
 - Every control must be usable with a keyboard.
 - Navigation around the application must be doable with a keyboard.
 - Should use standard Windows controls only.
 ## Limitations
 - May not cover 100% of the Voicemeeter GUI, for example the many EQ parameters.
 - Only designed to work with the NVDA screen reader. Other screen readers not supported.
 - Only the main Voicemeeter GUI supported by this application. No support for Matrix or other Voicemeeter products.
 - Runs on Python version 3.10 or greater.
--- a/img/buses.png
+++ b/img/buses.png
--- a/img/physical_strip.png
+++ b/img/physical_strip.png
--- a/img/settings.png
+++ b/img/settings.png
--- a/img/virtual_strip.png
+++ b/img/virtual_strip.png
--- a/pdm.lock
+++ b/pdm.lock
@@ -6,7 +6,7 @@ groups = ["default", "build", "lint", "test"]
 cross_platform = true
 static_urls = false
 lock_version = "4.3"
-content_hash = "sha256:2aaf88f0abb701968bc22eb31fd189810850a505bb93553f67216e4d1d259750"
+content_hash = "sha256:ba53368b628b713c9cf4eb54e6f5c5c4af207c8e247d473417e4c2a4b47f645d"
 [[package]]
 name = "altgraph"
@@ -271,13 +271,13 @@ files = [
 [[package]]
 name = "voicemeeter-api"
-version = "2.4.8"
+version = "2.4.9"
 requires_python = ">=3.10,<4.0"
 summary = "A Python wrapper for the Voiceemeter API"
 dependencies = [
    "tomli<3.0.0,>=2.0.1; python_version < \"3.11\"",
 ]
 files = [
-    {file = "voicemeeter_api-2.4.8-py3-none-any.whl", hash = "sha256:a3ff9e6f7516d2adedde93f6976526b385d8ae6d86598bfe541a44f498f42ea6"},
+    {file = "voicemeeter_api-2.4.9-py3-none-any.whl", hash = "sha256:a09fd07fe3799cd5c880d491048da81d94e49aa97ec753aa1f9289acd27be965"},
-    {file = "voicemeeter_api-2.4.8.tar.gz", hash = "sha256:0d37a9f2af0f68087aa9c76a8cfb2ba44c6b75bb344e8dfa9fd18ad2c862730c"},
+    {file = "voicemeeter_api-2.4.9.tar.gz", hash = "sha256:47ad614a8b9ccb0b4e47acf65666ce0f0537a0890fffda9949e995bea70e679c"},
 ]
--- a/pyproject.toml
+++ b/pyproject.toml
@@ -1,18 +1,20 @@
 [project]
 name = "nvda_voicemeeter"
-version = "0.1.0"
+version = "0.2.1b2"
 description = "A Voicemeeter app compatible with NVDA"
 authors = [
-    {name = "onyx-and-iris", email = "code@onyxandiris.online"},
+    { name = "onyx-and-iris", email = "code@onyxandiris.online" },
 ]
 dependencies = [
    "pysimplegui>=4.60.5",
    "pyparsing>=3.1.1",
-    "voicemeeter-api>=2.4.8",
+    "voicemeeter-api>=2.4.9",
 ]
-requires-python = ">=3.10,<3.11"
+requires-python = ">=3.10,<3.12"
 readme = "README.md"
-license = {text = "MIT"}
+
 [project.license]
 text = "MIT"
 [tool.pdm.dev-dependencies]
 build = [
@@ -26,5 +28,5 @@ test = [
    "psgdemos>=1.12.1",
 ]
-[tool.pdm.scripts]
+[tool.pdm.scripts.build]
-build = {shell = "build.ps1"}
+shell = "build.ps1"
--- a/src/nvda_voicemeeter/builder.py
+++ b/src/nvda_voicemeeter/builder.py
@@ -1,13 +1,7 @@
 import PySimpleGUI as psg
-from .util import (
+from . import util
-    get_asio_checkbox_index,
+from .compound import LabelSlider
    get_asio_samples_list,
    get_input_device_list,
    get_insert_checkbox_index,
    get_patch_composite_list,
    get_tabs_labels,
 )
 class Builder:
@@ -23,7 +17,11 @@ class Builder:
        layout0 = []
        if self.kind.name == "basic":
-            steps = (self.make_tab0_row0,)
+            steps = (
                self.make_tab0_row0,
                self.make_tab0_row1,
                self.make_tab0_row5,
            )
        else:
            steps = (
                self.make_tab0_row0,
@@ -31,29 +29,66 @@ class Builder:
                self.make_tab0_row2,
                self.make_tab0_row3,
                self.make_tab0_row4,
                self.make_tab0_row5,
            )
        for step in steps:
            layout0.append([step()])
-        layout1 = []
+        layout1_1 = []
-        steps = (self.make_tab1_rows,)
+        steps = (self.make_tab1_button_rows,)
        for step in steps:
-            layout1.append([step()])
+            layout1_1.append([step()])
-
+        layout1_2 = []
-        layout2 = []
+        steps = (self.make_tab1_slider_rows,)
        steps = (self.make_tab2_rows,)
        for step in steps:
-            layout2.append([step()])
+            layout1_2.append([step()])
-        layout3 = []
+        layout2_1 = []
-        steps = (self.make_tab3_rows,)
+        steps = (self.make_tab2_button_rows,)
        for step in steps:
-            layout3.append([step()])
+            layout2_1.append([step()])
        layout2_2 = []
        steps = (self.make_tab2_slider_rows,)
        for step in steps:
            layout2_2.append([step()])
-        layouts = [layout0, layout1, layout2, layout3]
+        layout3_1 = []
        steps = (self.make_tab3_button_rows,)
        for step in steps:
            layout3_1.append([step()])
        layout3_2 = []
        steps = (self.make_tab3_slider_rows,)
        for step in steps:
            layout3_2.append([step()])
-        tabs = [psg.Tab(identifier, layouts[i], key=identifier) for i, identifier in enumerate(get_tabs_labels())]
+        def _make_inner_tabgroup(layouts, identifier) -> psg.TabGroup:
-        tab_group = psg.TabGroup([tabs], change_submits=True, key="tabs")
+            inner_layout = []
            for i, tabname in enumerate(("buttons", "sliders")):
                inner_layout.append([psg.Tab(tabname.capitalize(), layouts[i], key=f"tab||{identifier}||{tabname}")])
            return psg.TabGroup(
                inner_layout,
                change_submits=True,
                enable_events=True,
                key=f"tabgroup||{identifier}",
            )
        def _make_tabs(identifier) -> psg.Tab:
            match identifier:
                case "Settings":
                    return psg.Tab("Settings", layout0, key="tab||Settings")
                case "Physical Strip":
                    tabgroup = _make_inner_tabgroup((layout1_1, layout1_2), identifier)
                case "Virtual Strip":
                    tabgroup = _make_inner_tabgroup((layout2_1, layout2_2), identifier)
                case "Buses":
                    tabgroup = _make_inner_tabgroup((layout3_1, layout3_2), identifier)
            return psg.Tab(identifier, [[tabgroup]], key=f"tab||{identifier}")
        tabs = []
        for tab in util.get_tabs_labels():
            tabs.append(_make_tabs(tab))
        tab_group = psg.TabGroup([tabs], change_submits=True, enable_events=True, key="tabgroup")
        return [[menu], [tab_group]]
@@ -72,11 +107,31 @@ class Builder:
        return psg.Menu(menu_def, key="menus")
    def make_tab0_row0(self) -> psg.Frame:
-        """tab0 row0 represents hardware outs"""
+        """tab0 row0 represents hardware ins"""
        def add_physical_device_opts(layout):
-            devices = get_input_device_list(self.vm)
+            devices = util.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 = []
        [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:
@@ -86,19 +141,19 @@ class Builder:
                    psg.ButtonMenu(
                        f"A{i + 1}",
                        size=(6, 3),
-                        menu_def=["", devices],
+                        menu_def=["", util.get_output_device_list(i, self.vm)],
                        key=f"HARDWARE OUT||A{i + 1}",
                    )
                    for i in range(num_outs)
                ]
            )
-        hardware_out = list()
+        hardware_out = []
        [step(hardware_out) for step in (add_physical_device_opts,)]
        return psg.Frame("Hardware Out", hardware_out)
-    def make_tab0_row1(self) -> psg.Frame:
+    def make_tab0_row2(self) -> psg.Frame:
-        """tab0 row1 represents patch asio inputs to strips"""
+        """tab0 row2 represents patch asio inputs to strips"""
        def add_asio_checkboxes(layout, i):
            nums = list(range(99))
@@ -106,7 +161,7 @@ class Builder:
                [
                    psg.Spin(
                        nums,
-                        initial_value=self.window.cache["asio"][f"ASIO CHECKBOX||{get_asio_checkbox_index(0, i)}"],
+                        initial_value=self.window.cache["asio"][f"ASIO CHECKBOX||{util.get_asio_checkbox_index(0, i)}"],
                        size=2,
                        enable_events=True,
                        key=f"ASIO CHECKBOX||IN{i} 0",
@@ -117,7 +172,7 @@ class Builder:
                [
                    psg.Spin(
                        nums,
-                        initial_value=self.window.cache["asio"][f"ASIO CHECKBOX||{get_asio_checkbox_index(1, i)}"],
+                        initial_value=self.window.cache["asio"][f"ASIO CHECKBOX||{util.get_asio_checkbox_index(1, i)}"],
                        size=2,
                        enable_events=True,
                        key=f"ASIO CHECKBOX||IN{i} 1",
@@ -125,7 +180,7 @@ class Builder:
                ],
            )
-        inner = list()
+        inner = []
        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,)]
@@ -134,11 +189,11 @@ class Builder:
        asio_checkboxes = [inner]
        return psg.Frame("PATCH ASIO Inputs to Strips", asio_checkboxes)
-    def make_tab0_row2(self) -> psg.Frame:
+    def make_tab0_row3(self) -> psg.Frame:
-        """tab0 row2 represents patch composite"""
+        """tab0 row3 represents patch composite"""
        def add_physical_device_opts(layout):
-            outputs = get_patch_composite_list(self.vm.kind)
+            outputs = util.get_patch_composite_list(self.vm.kind)
            layout.append(
                [
                    psg.ButtonMenu(
@@ -151,12 +206,12 @@ class Builder:
                ]
            )
-        hardware_out = list()
+        hardware_out = []
        [step(hardware_out) for step in (add_physical_device_opts,)]
        return psg.Frame("PATCH COMPOSITE", hardware_out)
-    def make_tab0_row3(self) -> psg.Frame:
+    def make_tab0_row4(self) -> psg.Frame:
-        """tab0 row3 represents patch insert"""
+        """tab0 row4 represents patch insert"""
        def add_insert_checkboxes(layout, i):
            if i <= self.kind.phys_in:
@@ -165,7 +220,7 @@ class Builder:
                        [
                            psg.Checkbox(
                                text=channel,
-                                default=self.vm.patch.insert[get_insert_checkbox_index(self.kind, j, i)].on,
+                                default=self.vm.patch.insert[util.get_insert_checkbox_index(self.kind, j, i)].on,
                                enable_events=True,
                                key=f"INSERT CHECKBOX||IN{i} {j}",
                            )
@@ -178,7 +233,7 @@ class Builder:
                    [
                        psg.Checkbox(
                            text=channel,
-                            default=self.vm.patch.insert[get_insert_checkbox_index(self.kind, j, i)].on,
+                            default=self.vm.patch.insert[util.get_insert_checkbox_index(self.kind, j, i)].on,
                            enable_events=True,
                            key=f"INSERT CHECKBOX||IN{i} {j}",
                        )
@@ -186,8 +241,8 @@ class Builder:
                    ],
                )
-        asio_checkboxes = list()
+        asio_checkboxes = []
-        inner = list()
+        inner = []
        checkbox_lists = ([] for _ in range(self.kind.num_strip))
        for i, checkbox_list in enumerate(checkbox_lists):
            if i < self.kind.phys_in:
@@ -200,27 +255,24 @@ class Builder:
        return psg.Frame("PATCH INSERT", asio_checkboxes)
-    def make_tab0_row4(self) -> psg.Frame:
+    def make_tab0_row5(self) -> psg.Frame:
-        """tab0 row4 represents asio buffer"""
+        """tab0 row5 represents advanced settings"""
        samples = get_asio_samples_list()
        samples.append("Default")
        return psg.Frame(
-            "ASIO BUFFER",
+            "ADVANCED SETTINGS",
            [
                [
-                    psg.ButtonMenu(
+                    psg.Button(
-                        "ASIO BUFFER",
+                        "ADVANCED SETTINGS",
-                        size=(14, 2),
+                        size=(20, 2),
-                        menu_def=["", samples],
+                        key="ADVANCED SETTINGS",
                        key="ASIO BUFFER",
                    )
                ]
                ],
            ],
            key="ADVANCED SETTINGS FRAME",
        )
-    def make_tab1_row(self, i) -> psg.Frame:
+    def make_tab1_button_row(self, i) -> psg.Frame:
        """tab1 row represents a strip's outputs (A1-A5, B1-B3)"""
        def add_strip_outputs(layout):
@@ -234,18 +286,74 @@ class Builder:
                        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()
+        outputs = []
        [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:
+    def make_tab1_button_rows(self) -> psg.Frame:
-        layout = [[self.make_tab1_row(i)] for i in range(self.kind.phys_in)]
+        layout = [[self.make_tab1_button_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:
+    def make_tab1_slider_row(self, i) -> psg.Frame:
        def add_gain_slider(layout):
            layout.append(
                [
                    psg.Text("Gain"),
                    psg.Slider(
                        range=(-60, 12),
                        default_value=self.vm.strip[i].gain,
                        resolution=0.1,
                        disable_number_display=True,
                        expand_x=True,
                        enable_events=True,
                        orientation="horizontal",
                        key=f"STRIP {i}||SLIDER GAIN",
                    ),
                ]
            )
        def add_param_sliders(layout):
            layout.append([LabelSlider(self.window, i, param) for param in util.get_slider_params(i, self.vm)])
        def add_limit_slider(layout):
            layout.append(
                [
                    psg.Text("Limit"),
                    psg.Slider(
                        range=(-40, 12),
                        default_value=self.vm.strip[i].limit,
                        resolution=0.1,
                        disable_number_display=True,
                        expand_x=True,
                        enable_events=True,
                        orientation="horizontal",
                        key=f"STRIP {i}||SLIDER LIMIT",
                    ),
                ]
            )
        layout = []
        steps = (add_gain_slider, add_param_sliders)
        if self.kind.name in ("banana", "potato"):
            steps += (add_limit_slider,)
        [step(layout) for step in steps]
        return psg.Frame(self.window.cache["labels"][f"STRIP {i}||LABEL"], layout, key=f"STRIP {i}||LABEL||SLIDER")
    def make_tab1_slider_rows(self) -> psg.Frame:
        layout = [[self.make_tab1_slider_row(i)] for i in range(self.kind.phys_in)]
        return psg.Frame(None, layout, border_width=0)
    def make_tab2_button_row(self, i) -> psg.Frame:
        """tab2 row represents a strip's outputs (A1-A5, B1-B3)"""
        def add_strip_outputs(layout):
@@ -261,25 +369,141 @@ class Builder:
                    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()
+        outputs = []
        [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:
+    def make_tab2_button_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)]
+        layout = [
            [self.make_tab2_button_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:
+    def make_tab2_slider_row(self, i) -> psg.Frame:
        def add_gain_slider(layout):
            layout.append(
                [
                    psg.Text("Gain"),
                    psg.Slider(
                        range=(-60, 12),
                        default_value=self.vm.strip[i].gain,
                        resolution=0.1,
                        disable_number_display=True,
                        expand_x=True,
                        enable_events=True,
                        orientation="horizontal",
                        key=f"STRIP {i}||SLIDER GAIN",
                    ),
                ]
            )
        def add_param_sliders(layout):
            if self.kind.name in ("basic", "banana"):
                for param in util.get_slider_params(i, self.vm):
                    layout.append([LabelSlider(self.window, i, param, range_=(-12, 12))])
            else:
                layout.append(
                    [
                        LabelSlider(self.window, i, param, range_=(-12, 12))
                        for param in util.get_slider_params(i, self.vm)
                    ]
                )
        def add_limit_slider(layout):
            layout.append(
                [
                    psg.Text("Limit"),
                    psg.Slider(
                        range=(-40, 12),
                        default_value=self.vm.strip[i].limit,
                        resolution=0.1,
                        disable_number_display=True,
                        expand_x=True,
                        enable_events=True,
                        orientation="horizontal",
                        key=f"STRIP {i}||SLIDER LIMIT",
                    ),
                ]
            )
        layout = []
        steps = (add_gain_slider, add_param_sliders)
        if self.kind.name in ("banana", "potato"):
            steps += (add_limit_slider,)
        [step(layout) for step in steps]
        return psg.Frame(self.window.cache["labels"][f"STRIP {i}||LABEL"], layout, key=f"STRIP {i}||LABEL||SLIDER")
    def make_tab2_slider_rows(self) -> psg.Frame:
        layout = [
            [self.make_tab2_slider_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_button_row(self, i) -> psg.Frame:
        """tab3 row represents bus composite toggle"""
        def add_strip_outputs(layout):
-            layout.append([psg.Button(f"BUSMODE", size=(12, 2), key=f"BUS {i}||MODE")])
+            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()
+        outputs = []
        [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:
+    def make_tab3_button_rows(self) -> psg.Frame:
-        layout = [[self.make_tab3_row(i)] for i in range(self.kind.num_bus)]
+        layout = [[self.make_tab3_button_row(i)] for i in range(self.kind.num_bus)]
        return psg.Frame(None, layout, border_width=0)
    def make_tab3_slider_row(self, i) -> psg.Frame:
        def add_gain_slider(layout):
            layout.append(
                [
                    psg.Slider(
                        range=(-60, 12),
                        default_value=self.vm.bus[i].gain,
                        resolution=0.1,
                        disable_number_display=True,
                        expand_x=True,
                        enable_events=True,
                        orientation="horizontal",
                        key=f"BUS {i}||SLIDER GAIN",
                    )
                ]
            )
        outputs = []
        [step(outputs) for step in (add_gain_slider,)]
        return psg.Frame(self.window.cache["labels"][f"BUS {i}||LABEL"], outputs, key=f"BUS {i}||LABEL||SLIDER")
    def make_tab3_slider_rows(self) -> psg.Frame:
        layout = [[self.make_tab3_slider_row(i)] for i in range(self.kind.num_bus)]
        return psg.Frame(None, layout, border_width=0)
--- a/src/nvda_voicemeeter/compound.py
+++ b/src/nvda_voicemeeter/compound.py
@@ -0,0 +1,39 @@
 import PySimpleGUI as psg
 class LabelSlider(psg.Frame):
    """Compound Label Slider element"""
    def __init__(self, parent, i, param, range_=(0, 10), *args, **kwargs):
        self.parent = parent
        if param in ("AUDIBILITY", "DENOISER"):
            size = 7
        else:
            size = 4
        if param == "LIMIT":
            resolution = 1
        else:
            resolution = 0.1
        layout = [
            [
                psg.Text(param.capitalize(), size=size),
                psg.Slider(
                    range=range_,
                    default_value=self.default_value(i, param),
                    resolution=resolution,
                    disable_number_display=True,
                    size=(12, 16),
                    expand_x=True,
                    enable_events=True,
                    orientation="horizontal",
                    key=f"STRIP {i}||SLIDER {param}",
                ),
            ]
        ]
        super().__init__(None, layout=layout, border_width=0, pad=0, *args, **kwargs)
    def default_value(self, i, param):
        target = getattr(self.parent.vm.strip[i], param.lower())
        if param in ("COMP", "GATE", "DENOISER"):
            return target.knob
        return target
--- a/src/nvda_voicemeeter/models.py
+++ b/src/nvda_voicemeeter/models.py
@@ -1,16 +1,25 @@
 def _make_hardware_ins_cache(vm) -> dict:
    return {**{f"HARDWARE IN||{i + 1}": vm.strip[i].device.name for i in range(vm.kind.phys_in)}}
 def _make_hardware_outs_cache(vm) -> dict:
-    return {**{f"HARDWARE OUT||A{i + 1}": vm.bus[i].device.name for i in range(vm.kind.phys_out)}}
+    hw_outs = {**{f"HARDWARE OUT||A{i + 1}": vm.bus[i].device.name for i in range(vm.kind.phys_out)}}
    if vm.kind.name == "basic":
        hw_outs |= {f"HARDWARE OUT||A2": vm.bus[1].device.name}
    return hw_outs
-def _make_output_cache(vm) -> dict:
+def _make_param_cache(vm, channel_type) -> dict:
    params = {}
    if channel_type == "strip":
        match vm.kind.name:
            case "basic":
-            return {
+                params |= {
                    **{f"STRIP {i}||A1": vm.strip[i].A1 for i in range(vm.kind.num_strip)},
                    **{f"STRIP {i}||B1": vm.strip[i].B1 for i in range(vm.kind.num_strip)},
                }
            case "banana":
-            return {
+                params |= {
                    **{f"STRIP {i}||A1": vm.strip[i].A1 for i in range(vm.kind.num_strip)},
                    **{f"STRIP {i}||A2": vm.strip[i].A2 for i in range(vm.kind.num_strip)},
                    **{f"STRIP {i}||A3": vm.strip[i].A3 for i in range(vm.kind.num_strip)},
@@ -18,7 +27,7 @@ def _make_output_cache(vm) -> dict:
                    **{f"STRIP {i}||B2": vm.strip[i].B2 for i in range(vm.kind.num_strip)},
                }
            case "potato":
-            return {
+                params |= {
                    **{f"STRIP {i}||A1": vm.strip[i].A1 for i in range(vm.kind.num_strip)},
                    **{f"STRIP {i}||A2": vm.strip[i].A2 for i in range(vm.kind.num_strip)},
                    **{f"STRIP {i}||A3": vm.strip[i].A3 for i in range(vm.kind.num_strip)},
@@ -28,10 +37,19 @@ def _make_output_cache(vm) -> dict:
                    **{f"STRIP {i}||B2": vm.strip[i].B2 for i in range(vm.kind.num_strip)},
                    **{f"STRIP {i}||B3": vm.strip[i].B3 for i in range(vm.kind.num_strip)},
                }
-
+        params |= {
-
+            **{f"STRIP {i}||MONO": vm.strip[i].mono for i in range(vm.kind.num_strip)},
-def _make_bus_mode_cache(vm) -> dict:
+            **{f"STRIP {i}||SOLO": vm.strip[i].solo for i in range(vm.kind.num_strip)},
-    return {**{f"BUS {i}||MODE": vm.bus[i].mode.get() for i in range(vm.kind.num_bus)}}
+            **{f"STRIP {i}||MUTE": vm.strip[i].mute for i in range(vm.kind.num_strip)},
        }
    else:
        params |= {
            **{f"BUS {i}||MONO": vm.bus[i].mono for i in range(vm.kind.num_bus)},
            **{f"BUS {i}||EQ": vm.bus[i].eq.on for i in range(vm.kind.num_bus)},
            **{f"BUS {i}||MUTE": vm.bus[i].mute for i in range(vm.kind.num_bus)},
            **{f"BUS {i}||MODE": vm.bus[i].mode.get() for i in range(vm.kind.num_bus)},
        }
    return params
 def _make_label_cache(vm) -> dict:
@@ -56,8 +74,10 @@ def _make_label_cache(vm) -> dict:
 def _make_patch_asio_cache(vm) -> dict:
    if vm.kind.name != "basic":
        return {**{f"ASIO CHECKBOX||{i}": vm.patch.asio[i].get() for i in range(vm.kind.phys_out * 2)}}
 def _make_patch_insert_cache(vm) -> dict:
    if vm.kind.name != "basic":
        return {**{f"INSERT CHECKBOX||{i}": vm.patch.insert[i].on for i in range(vm.kind.num_strip_levels)}}
--- a/src/nvda_voicemeeter/util.py
+++ b/src/nvda_voicemeeter/util.py
@@ -1,3 +1,6 @@
 from typing import Iterable
 def get_asio_checkbox_index(channel, num) -> int:
    if channel == 0:
        return 2 * num - 2
@@ -8,13 +11,36 @@ def get_insert_checkbox_index(kind, channel, num) -> int:
    if num <= kind.phys_in:
        if channel == 0:
            return 2 * num - 2
        else:
        return 2 * num - 1
    return (2 * kind.phys_in) + (8 * (num - kind.phys_in - 1)) + channel
 _rejected_ids = (
    "VBAudio100VMVAIO3",
    "{F5735BD4-6EAF-4758-9710-9886E5AD0FF3}",
    "{0239BE07-CEEF-4236-A900-AA778D432FD4}",
 )
 def get_input_device_list(vm) -> list:
-    return ["{type}: {name}".format(**vm.device.output(i)) for i in range(vm.device.outs)]
+    devices = []
    for j in range(vm.device.ins):
        device = vm.device.input(j)
        if device["id"] not in _rejected_ids:
            devices.append("{type}: {name}".format(**device))
    return devices
 def get_output_device_list(i, vm) -> list:
    devices = []
    for j in range(vm.device.outs):
        device = vm.device.output(j)
        if device["id"] not in _rejected_ids:
            devices.append("{type}: {name}".format(**device))
    if i == 0:
        return devices
    devices.append("- remove device selection -")
    return [device for device in devices if not device.startswith("asio")]
 def get_patch_composite_list(kind) -> list:
@@ -43,28 +69,20 @@ def get_patch_insert_channels() -> list:
 _patch_insert_channels = get_patch_insert_channels()
-def get_asio_samples_list() -> list:
+def get_asio_samples_list(driver) -> list:
-    return [
+    if driver == "MME":
-        "1024",
+        samples = ["2048", "1536", "1024", "896", "768", "704", "640", "576", "512", "480", "441"]
-        "768",
+    else:
-        "704",
+        # fmt: off
-        "640",
+        samples = [
-        "576",
+            "2048", "1536", "1024", "768", "704", "640", "576", "512", "480", "448", "441", "416", "384",
-        "512",
+            "352", "320", "288", "256", "224", "192", "160", "128"
        "480",
        "448",
        "441",
        "416",
        "384",
        "352",
        "320",
        "288",
        "256",
        "224",
        "192",
        "160",
        "128",
        ]
        # fmt: on
        if driver == "ASIO":
            samples = [x for x in samples if x not in ("2048", "1536")]
    samples.append("Default")
    return samples
 def get_tabs_labels() -> list:
@@ -88,3 +106,47 @@ def get_channel_identifier_list(vm) -> list:
        for j in range(8):
            identifiers.append(f"IN{i + 1} {j}")
    return identifiers
 def get_bus_modes(vm) -> list:
    if vm.kind.name == "basic":
        return [
            "normal",
            "amix",
            "repeat",
            "composite",
        ]
    return [
        "normal",
        "amix",
        "bmix",
        "repeat",
        "composite",
        "tvmix",
        "upmix21",
        "upmix41",
        "upmix61",
        "centeronly",
        "lfeonly",
        "rearonly",
    ]
 def check_bounds(val, bounds: tuple) -> int | float:
    lower, upper = bounds
    if val > upper:
        val = upper
    elif val < lower:
        val = lower
    return val
 def get_slider_params(i, vm) -> Iterable:
    if i < vm.kind.phys_in:
        if vm.kind.name == "basic":
            return ("AUDIBILITY",)
        if vm.kind.name == "banana":
            return ("COMP", "GATE")
        if vm.kind.name == "potato":
            return ("COMP", "GATE", "DENOISER")
    return ("BASS", "MID", "TREBLE")
--- a/src/nvda_voicemeeter/window.py
+++ b/src/nvda_voicemeeter/window.py
@@ -4,25 +4,10 @@ from pathlib import Path
 import PySimpleGUI as psg
 from . import models, util
 from .builder import Builder
 from .models import (
    _make_bus_mode_cache,
    _make_hardware_outs_cache,
    _make_label_cache,
    _make_output_cache,
    _make_patch_asio_cache,
    _make_patch_insert_cache,
 )
 from .nvda import Nvda
 from .parser import Parser
 from .util import (
    _patch_insert_channels,
    get_asio_checkbox_index,
    get_channel_identifier_list,
    get_insert_checkbox_index,
    get_patch_composite_list,
    open_context_menu_for_buttonmenu,
 )
 logger = logging.getLogger(__name__)
@@ -39,12 +24,13 @@ class NVDAVMWindow(psg.Window):
        self.kind = self.vm.kind
        self.logger = logger.getChild(type(self).__name__)
        self.cache = {
-            "hw_outs": _make_hardware_outs_cache(self.vm),
+            "hw_ins": models._make_hardware_ins_cache(self.vm),
-            "outputs": _make_output_cache(self.vm),
+            "hw_outs": models._make_hardware_outs_cache(self.vm),
-            "busmode": _make_bus_mode_cache(self.vm),
+            "strip": models._make_param_cache(self.vm, "strip"),
-            "labels": _make_label_cache(self.vm),
+            "bus": models._make_param_cache(self.vm, "bus"),
-            "asio": _make_patch_asio_cache(self.vm),
+            "labels": models._make_label_cache(self.vm),
-            "insert": _make_patch_insert_cache(self.vm),
+            "asio": models._make_patch_asio_cache(self.vm),
            "insert": models._make_patch_insert_cache(self.vm),
        }
        self.nvda = Nvda()
        self.parser = Parser()
@@ -52,12 +38,26 @@ class NVDAVMWindow(psg.Window):
        layout = self.builder.run()
        super().__init__(title, layout, return_keyboard_events=True, finalize=True)
        buttonmenu_opts = {"takefocus": 1, "highlightthickness": 1}
        for i in range(self.kind.phys_in):
            self[f"HARDWARE IN||{i + 1}"].Widget.config(**buttonmenu_opts)
        for i in range(self.kind.phys_out):
            self[f"HARDWARE OUT||A{i + 1}"].Widget.config(**buttonmenu_opts)
        if self.kind.name == "basic":
            self[f"HARDWARE OUT||A2"].Widget.config(**buttonmenu_opts)
        if self.kind.name != "basic":
            [self[f"PATCH COMPOSITE||PC{i + 1}"].Widget.config(**buttonmenu_opts) for i in range(self.kind.phys_out)]
-            self["ASIO BUFFER"].Widget.config(**buttonmenu_opts)
+        slider_opts = {"takefocus": 1, "highlightthickness": 1}
        for i in range(self.kind.num_strip):
            for param in util.get_slider_params(i, self.vm):
                self[f"STRIP {i}||SLIDER {param}"].Widget.config(**slider_opts)
            self[f"STRIP {i}||SLIDER GAIN"].Widget.config(**slider_opts)
            if self.kind.name != "basic":
                self[f"STRIP {i}||SLIDER LIMIT"].Widget.config(**slider_opts)
        for i in range(self.kind.num_bus):
            self[f"BUS {i}||SLIDER GAIN"].Widget.config(**slider_opts)
        self.register_events()
        self["tabgroup"].set_focus()
    def __enter__(self):
        settings_path = Path.cwd() / self.SETTINGS
@@ -92,37 +92,67 @@ class NVDAVMWindow(psg.Window):
    def on_pdirty(self):
        self.cache = {
-            "hw_outs": _make_hardware_outs_cache(self.vm),
+            "hw_ins": models._make_hardware_ins_cache(self.vm),
-            "outputs": _make_output_cache(self.vm),
+            "hw_outs": models._make_hardware_outs_cache(self.vm),
-            "busmode": _make_bus_mode_cache(self.vm),
+            "strip": models._make_param_cache(self.vm, "strip"),
-            "labels": _make_label_cache(self.vm),
+            "bus": models._make_param_cache(self.vm, "bus"),
-            "asio": _make_patch_asio_cache(self.vm),
+            "labels": models._make_label_cache(self.vm),
-            "insert": _make_patch_insert_cache(self.vm),
+            "asio": models._make_patch_asio_cache(self.vm),
            "insert": models._make_patch_insert_cache(self.vm),
        }
        for key, value in self.cache["labels"].items():
            self[key].update(value=value)
            self[f"{key}||SLIDER"].update(value=value)
        for i in range(self.kind.num_strip):
            self[f"STRIP {i}||SLIDER GAIN"].update(value=self.vm.strip[i].gain)
            if self.kind.name != "basic":
                self[f"STRIP {i}||SLIDER LIMIT"].update(value=self.vm.strip[i].limit)
            for param in util.get_slider_params(i, self.vm):
                if param in ("AUDIBILITY", "BASS", "MID", "TREBLE"):
                    val = getattr(self.vm.strip[i], param.lower())
                else:
                    target = getattr(self.vm.strip[i], param.lower())
                    val = target.knob
                self[f"STRIP {i}||SLIDER {param}"].update(value=val)
        for i in range(self.kind.num_bus):
            self[f"BUS {i}||SLIDER GAIN"].update(value=self.vm.bus[i].gain)
        if self.kind.name != "basic":
            for key, value in self.cache["asio"].items():
                identifier, i = key.split("||")
-            partial = get_channel_identifier_list(self.vm)[int(i)]
+                partial = util.get_channel_identifier_list(self.vm)[int(i)]
                self[f"{identifier}||{partial}"].update(value=value)
            for key, value in self.cache["insert"].items():
                identifier, i = key.split("||")
-            partial = get_channel_identifier_list(self.vm)[int(i)]
+                partial = util.get_channel_identifier_list(self.vm)[int(i)]
                self[f"{identifier}||{partial}"].update(value=value)
    def register_events(self):
        """Registers events for widgets"""
        # TABS
-        self["tabs"].bind("<FocusIn>", "||FOCUS IN")
+        self["tabgroup"].bind("<FocusIn>", "||FOCUS IN")
        for tabname in util.get_tabs_labels()[1:]:
            self[f"tabgroup||{tabname}"].bind("<FocusIn>", "||FOCUS IN")
            self[f"tabgroup||{tabname}"].bind("<Shift-KeyPress-Tab>", "||KEY SHIFT TAB")
        self.bind("<Control-KeyPress-Tab>", "CTRL-TAB")
        self.bind("<Control-Shift-KeyPress-Tab>", "CTRL-SHIFT-TAB")
        self.bind("<Control-a>", "CTRL-A")
        # Hardware In
        for i in range(self.vm.kind.phys_in):
            self[f"HARDWARE IN||{i + 1}"].bind("<FocusIn>", "||FOCUS IN")
            self[f"HARDWARE IN||{i + 1}"].bind("<space>", "||KEY SPACE", propagate=False)
            self[f"HARDWARE IN||{i + 1}"].bind("<Return>", "||KEY ENTER", propagate=False)
        # Hardware Out
        for i in range(self.vm.kind.phys_out):
            self[f"HARDWARE OUT||A{i + 1}"].bind("<FocusIn>", "||FOCUS IN")
            self[f"HARDWARE OUT||A{i + 1}"].bind("<space>", "||KEY SPACE", propagate=False)
            self[f"HARDWARE OUT||A{i + 1}"].bind("<Return>", "||KEY ENTER", propagate=False)
        if self.vm.kind.name == "basic":
            self[f"HARDWARE OUT||A2"].bind("<FocusIn>", "||FOCUS IN")
            self[f"HARDWARE OUT||A2"].bind("<space>", "||KEY SPACE", propagate=False)
            self[f"HARDWARE OUT||A2"].bind("<Return>", "||KEY ENTER", propagate=False)
        # Patch ASIO
        if self.kind.name != "basic":
@@ -146,7 +176,11 @@ class NVDAVMWindow(psg.Window):
                else:
                    [self[f"INSERT CHECKBOX||IN{i + 1} {j}"].bind("<FocusIn>", "||FOCUS IN") for j in range(8)]
-        # Strip Outputs
+        # Advanced Settings
        self["ADVANCED SETTINGS"].bind("<FocusIn>", "||FOCUS IN")
        self["ADVANCED SETTINGS"].bind("<Return>", "||KEY ENTER")
        # Strip Params
        for i in range(self.kind.num_strip):
            for j in range(self.kind.phys_out):
                self[f"STRIP {i}||A{j + 1}"].bind("<FocusIn>", "||FOCUS IN")
@@ -154,17 +188,60 @@ class NVDAVMWindow(psg.Window):
            for j in range(self.kind.virt_out):
                self[f"STRIP {i}||B{j + 1}"].bind("<FocusIn>", "||FOCUS IN")
                self[f"STRIP {i}||B{j + 1}"].bind("<Return>", "||KEY ENTER")
            if i < self.kind.phys_in:
                for param in ("MONO", "SOLO", "MUTE"):
                    self[f"STRIP {i}||{param}"].bind("<FocusIn>", "||FOCUS IN")
                    self[f"STRIP {i}||{param}"].bind("<Return>", "||KEY ENTER")
            else:
                for param in ("MONO", "SOLO", "MUTE"):
                    self[f"STRIP {i}||{param}"].bind("<FocusIn>", "||FOCUS IN")
                    self[f"STRIP {i}||{param}"].bind("<Return>", "||KEY ENTER")
-        # Bus Modes
+        # Strip Sliders
        for i in range(self.kind.num_strip):
            for param in util.get_slider_params(i, self.vm) + ("GAIN", "LIMIT"):
                if self.kind.name == "basic" and param == "LIMIT":
                    continue
                self[f"STRIP {i}||SLIDER {param}"].bind("<FocusIn>", "||FOCUS IN")
                self[f"STRIP {i}||SLIDER {param}"].bind("<FocusOut>", "||FOCUS OUT")
                self[f"STRIP {i}||SLIDER {param}"].bind("<Left>", "||KEY LEFT")
                self[f"STRIP {i}||SLIDER {param}"].bind("<Right>", "||KEY RIGHT")
                self[f"STRIP {i}||SLIDER {param}"].bind("<Shift-KeyPress-Left>", "||KEY SHIFT LEFT")
                self[f"STRIP {i}||SLIDER {param}"].bind("<Shift-KeyPress-Right>", "||KEY SHIFT RIGHT")
                self[f"STRIP {i}||SLIDER {param}"].bind("<Control-KeyPress-Left>", "||KEY CTRL LEFT")
                self[f"STRIP {i}||SLIDER {param}"].bind("<Control-KeyPress-Right>", "||KEY CTRL RIGHT")
                self[f"STRIP {i}||SLIDER {param}"].bind("<Up>", "||KEY UP")
                self[f"STRIP {i}||SLIDER {param}"].bind("<Down>", "||KEY DOWN")
                self[f"STRIP {i}||SLIDER {param}"].bind("<Shift-KeyPress-Up>", "||KEY SHIFT UP")
                self[f"STRIP {i}||SLIDER {param}"].bind("<Shift-KeyPress-Down>", "||KEY SHIFT DOWN")
                self[f"STRIP {i}||SLIDER {param}"].bind("<Control-KeyPress-Up>", "||KEY CTRL UP")
                self[f"STRIP {i}||SLIDER {param}"].bind("<Control-KeyPress-Down>", "||KEY CTRL DOWN")
        # Bus Params
        params = ["MONO", "EQ", "MUTE", "MODE"]
        if self.vm.kind.name == "basic":
            params.remove("EQ")
        for i in range(self.kind.num_bus):
-            self[f"BUS {i}||MODE"].bind("<FocusIn>", "||FOCUS IN")
+            for param in params:
-            self[f"BUS {i}||MODE"].bind("<Return>", "||KEY ENTER")
+                self[f"BUS {i}||{param}"].bind("<FocusIn>", "||FOCUS IN")
                self[f"BUS {i}||{param}"].bind("<Return>", "||KEY ENTER")
-        # ASIO Buffer
+        # Bus Sliders
-        if self.kind.name != "basic":
+        for i in range(self.kind.num_bus):
-            self["ASIO BUFFER"].bind("<FocusIn>", "||FOCUS IN")
+            self[f"BUS {i}||SLIDER GAIN"].bind("<FocusIn>", "||FOCUS IN")
-            self["ASIO BUFFER"].bind("<space>", "||KEY SPACE", propagate=False)
+            self[f"BUS {i}||SLIDER GAIN"].bind("<FocusOut>", "||FOCUS OUT")
-            self["ASIO BUFFER"].bind("<Return>", "||KEY ENTER", propagate=False)
+            self[f"BUS {i}||SLIDER GAIN"].bind("<Left>", "||KEY LEFT")
            self[f"BUS {i}||SLIDER GAIN"].bind("<Right>", "||KEY RIGHT")
            self[f"BUS {i}||SLIDER GAIN"].bind("<Shift-KeyPress-Left>", "||KEY SHIFT LEFT")
            self[f"BUS {i}||SLIDER GAIN"].bind("<Shift-KeyPress-Right>", "||KEY SHIFT RIGHT")
            self[f"BUS {i}||SLIDER GAIN"].bind("<Control-KeyPress-Left>", "||KEY CTRL LEFT")
            self[f"BUS {i}||SLIDER GAIN"].bind("<Control-KeyPress-Right>", "||KEY CTRL RIGHT")
            self[f"BUS {i}||SLIDER GAIN"].bind("<Up>", "||KEY UP")
            self[f"BUS {i}||SLIDER GAIN"].bind("<Down>", "||KEY DOWN")
            self[f"BUS {i}||SLIDER GAIN"].bind("<Shift-KeyPress-Up>", "||KEY SHIFT UP")
            self[f"BUS {i}||SLIDER GAIN"].bind("<Shift-KeyPress-Down>", "||KEY SHIFT DOWN")
            self[f"BUS {i}||SLIDER GAIN"].bind("<Control-KeyPress-Up>", "||KEY CTRL UP")
            self[f"BUS {i}||SLIDER GAIN"].bind("<Control-KeyPress-Down>", "||KEY CTRL DOWN")
    def popup_save_as(self, message, title=None, initial_folder=None):
        layout = [
@@ -186,27 +263,24 @@ class NVDAVMWindow(psg.Window):
            self.logger.debug(f"values::{values}")
            if event in (psg.WIN_CLOSED, "Cancel"):
                break
-            elif event.endswith("||FOCUS IN"):
+            match parsed_cmd := self.parser.match.parseString(event):
                case [[button], ["FOCUS", "IN"]]:
                    if values["Browse"]:
                        filepath = values["Browse"]
                        break
-                label = event.split("||")[0]
+                    self.nvda.speak(button)
-                self.TKroot.after(
+                case [[button], ["KEY", "ENTER"]]:
                    200 if label == "Edit" else 1,
                    self.nvda.speak,
                    label,
                )
            elif event.endswith("||KEY ENTER"):
                    window.find_element_with_focus().click()
            self.logger.debug(f"parsed::{parsed_cmd}")
        window.close()
        if filepath:
            return Path(filepath)
    def popup_rename(self, message, title=None, tab=None):
        if tab == "Physical Strip":
-            upper = self.kind.phys_out + 1
+            upper = self.kind.phys_in + 1
        elif tab == "Virtual Strip":
-            upper = self.kind.virt_out + 1
+            upper = self.kind.virt_in + 1
        elif tab == "Buses":
            upper = self.kind.num_bus + 1
@@ -236,24 +310,87 @@ class NVDAVMWindow(psg.Window):
            self.logger.debug(f"values::{values}")
            if event in (psg.WIN_CLOSED, "Cancel"):
                break
-            elif event.endswith("||KEY ENTER"):
+            match parsed_cmd := self.parser.match.parseString(event):
-                window.find_element_with_focus().click()
+                case ["Index"]:
            elif event == "Index":
                    val = values["Index"]
                    self.nvda.speak(f"Index {val}")
-            elif event.endswith("||FOCUS IN"):
+                case [[button], ["FOCUS", "IN"]]:
-                if event.startswith("Index"):
+                    if button == "Index":
                        val = values["Index"]
                        self.nvda.speak(f"Index {val}")
                    else:
-                    self.nvda.speak(event.split("||")[0])
+                        self.nvda.speak(button)
-            elif event == "Ok":
+                case [[button], ["KEY", "ENTER"]]:
                    window.find_element_with_focus().click()
                case ["Ok"]:
                    data = values
                    break
-
+            self.logger.debug(f"parsed::{parsed_cmd}")
        window.close()
        return data
    def popup_advanced_settings(self, title):
        def _make_buffering_frame() -> psg.Frame:
            buffer = [
                [
                    psg.ButtonMenu(
                        driver,
                        size=(14, 2),
                        menu_def=["", util.get_asio_samples_list(driver)],
                        key=f"BUFFER {driver}",
                    )
                    for driver in ("MME", "WDM", "KS", "ASIO")
                ],
            ]
            return psg.Frame("BUFFERING", buffer)
        layout = []
        steps = (_make_buffering_frame,)
        for step in steps:
            layout.append([step()])
        layout.append([psg.Button("Exit", size=(8, 2))])
        window = psg.Window(title, layout, finalize=True)
        buttonmenu_opts = {"takefocus": 1, "highlightthickness": 1}
        for driver in ("MME", "WDM", "KS", "ASIO"):
            window[f"BUFFER {driver}"].Widget.config(**buttonmenu_opts)
            window[f"BUFFER {driver}"].bind("<FocusIn>", "||FOCUS IN")
            window[f"BUFFER {driver}"].bind("<space>", "||KEY SPACE", propagate=False)
            window[f"BUFFER {driver}"].bind("<Return>", "||KEY ENTER", propagate=False)
        window["Exit"].bind("<FocusIn>", "||FOCUS IN")
        window["Exit"].bind("<Return>", "||KEY ENTER")
        while True:
            event, values = window.read()
            self.logger.debug(f"event::{event}")
            self.logger.debug(f"values::{values}")
            if event in (psg.WIN_CLOSED, "Exit"):
                break
            match parsed_cmd := self.parser.match.parseString(event):
                case ["BUFFER MME" | "BUFFER WDM" | "BUFFER KS" | "BUFFER ASIO"]:
                    if values[event] == "Default":
                        if "MME" in event:
                            val = 1024
                        elif "WDM" in event or "KS" in event:
                            val = 512
                        else:
                            val = 0
                    else:
                        val = int(values[event])
                    driver = event.split()[1]
                    self.vm.set(f"option.buffer.{driver.lower()}", val)
                    self.TKroot.after(200, self.nvda.speak, f"{driver} BUFFER {val if val else 'default'}")
                case [["BUFFER", driver], ["FOCUS", "IN"]]:
                    val = int(self.vm.get(f"option.buffer.{driver.lower()}"))
                    self.nvda.speak(f"{driver} BUFFER {val if val else 'default'}")
                case [["BUFFER", driver], ["KEY", "SPACE" | "ENTER"]]:
                    util.open_context_menu_for_buttonmenu(window, f"BUFFER {driver}")
                case [[button], ["FOCUS", "IN"]]:
                    self.nvda.speak(button)
                case [[button], ["KEY", "ENTER"]]:
                    window.find_element_with_focus().click()
            self.logger.debug(f"parsed::{parsed_cmd}")
        window.close()
    def run(self):
        """
        Parses the event string and matches it to events
@@ -267,17 +404,16 @@ class NVDAVMWindow(psg.Window):
            self.logger.debug(f"values::{values}")
            if event in (psg.WIN_CLOSED, "Exit"):
                break
            elif event == "tabs":
                self.nvda.speak(f"tab {values['tabs']}")
            match parsed_cmd := self.parser.match.parseString(event):
                # Focus tabgroup
                case ["CTRL-TAB"] | ["CTRL-SHIFT-TAB"]:
-                    self["tabs"].set_focus()
+                    self["tabgroup"].set_focus()
                    self.nvda.speak(f"{values['tabgroup']}")
                # Rename popups
                case ["F2:113"]:
-                    tab = values["tabs"]
+                    tab = values["tabgroup"]
                    if tab in ("Physical Strip", "Virtual Strip", "Buses"):
                        data = self.popup_rename("Label", title=f"Rename {tab}", tab=tab)
                        if not data:  # cancel was pressed
@@ -285,20 +421,21 @@ class NVDAVMWindow(psg.Window):
                        index = int(data["Index"]) - 1
                        match tab:
                            case "Physical Strip":
-                                label = data.get("Edit") or f"Hardware Input {index + 1}"
+                                label = data.get("Edit", f"Hardware Input {index + 1}")
                                self.vm.strip[index].label = label
                                self[f"STRIP {index}||LABEL"].update(value=label)
                                self.cache["labels"][f"STRIP {index}||LABEL"] = label
                            case "Virtual Strip":
-                                label = data.get("Edit") or f"Virtual Input {index + 1}"
+                                index += self.kind.phys_in
                                label = data.get("Edit", f"Virtual Input {index - self.kind.phys_in + 1}")
                                self.vm.strip[index].label = label
                                self[f"STRIP {index}||LABEL"].update(value=label)
                                self.cache["labels"][f"STRIP {index}||LABEL"] = label
                            case "Buses":
                                if index < self.kind.phys_out:
-                                    label = data.get("Edit") or f"Physical Bus {index + 1}"
+                                    label = data.get("Edit", f"Physical Bus {index + 1}")
                                else:
-                                    label = data.get("Edit") or f"Virtual Bus {index - self.kind.phys_out + 1}"
+                                    label = data.get("Edit", f"Virtual Bus {index - self.kind.phys_out + 1}")
                                self.vm.bus[index].label = label
                                self[f"BUS {index}||LABEL"].update(value=label)
                                self.cache["labels"][f"BUS {index}||LABEL"] = label
@@ -336,6 +473,8 @@ class NVDAVMWindow(psg.Window):
                        filepath = Path(filepath)
                        self.vm.set("command.load", str(filepath))
                        self.logger.debug(f"loading config file from {filepath}")
                        for i in (25, 50):  # for the benefit of the sliders
                            self.TKroot.after(i, self.on_pdirty)
                        self.TKroot.after(
                            200,
                            self.nvda.speak,
@@ -361,11 +500,40 @@ class NVDAVMWindow(psg.Window):
                    else:
                        with open(self.SETTINGS, "wb") as f:
                            f.truncate()
-                        self.logger.debug("default bin was truncated")
+                        self.logger.debug("settings.json was truncated")
                # Tabs
-                case [["tabs"], ["FOCUS", "IN"]]:
+                case ["tabgroup"] | [["tabgroup"], ["FOCUS", "IN"]]:
-                    self.nvda.speak(f"tab {values['tabs']}")
+                    if self.find_element_with_focus() is None:
                        self.nvda.speak(f"{values['tabgroup']}")
                case [["tabgroup"], tabname] | [["tabgroup"], tabname, ["FOCUS", "IN"]]:
                    if self.find_element_with_focus() is None:
                        name = " ".join(tabname)
                        self.nvda.speak(f"{values[f'tabgroup||{name}']}")
                case [["tabgroup"], _, ["KEY", "SHIFT", "TAB"]]:
                    self.nvda.speak(values["tabgroup"])
                # Hardware In
                case [["HARDWARE", "IN"], [key]]:
                    selection = values[f"HARDWARE IN||{key}"]
                    index = int(key) - 1
                    match selection.split(":"):
                        case [device_name]:
                            setattr(self.vm.strip[index].device, "wdm", "")
                            self.TKroot.after(200, self.nvda.speak, f"HARDWARE IN {key} device selection removed")
                        case [driver, device_name]:
                            setattr(self.vm.strip[index].device, driver, device_name.lstrip())
                            phonetic = {"mme": "em em e"}
                            self.TKroot.after(
                                200,
                                self.nvda.speak,
                                f"HARDWARE IN {key} set {phonetic.get(driver, driver)} {device_name}",
                            )
                case [["HARDWARE", "IN"], [key], ["FOCUS", "IN"]]:
                    if self.find_element_with_focus() is not None:
                        self.nvda.speak(f"HARDWARE INPUT {key} {self.cache['hw_ins'][f'HARDWARE IN||{key}']}")
                case [["HARDWARE", "IN"], [key], ["KEY", "SPACE" | "ENTER"]]:
                    util.open_context_menu_for_buttonmenu(self, f"HARDWARE IN||{key}")
                # Hardware out
                case [["HARDWARE", "OUT"], [key]]:
@@ -376,7 +544,7 @@ class NVDAVMWindow(psg.Window):
                            setattr(self.vm.bus[index].device, "wdm", "")
                            self.TKroot.after(200, self.nvda.speak, f"HARDWARE OUT {key} device selection removed")
                        case [driver, device_name]:
-                            setattr(self.vm.bus[index].device, driver, device_name.strip())
+                            setattr(self.vm.bus[index].device, driver, device_name.lstrip())
                            phonetic = {"mme": "em em e"}
                            self.TKroot.after(
                                200,
@@ -384,18 +552,20 @@ class NVDAVMWindow(psg.Window):
                                f"HARDWARE OUT {key} set {phonetic.get(driver, driver)} {device_name}",
                            )
                case [["HARDWARE", "OUT"], [key], ["FOCUS", "IN"]]:
                    if self.find_element_with_focus() is not None:
                        self.nvda.speak(f"HARDWARE OUT {key} {self.cache['hw_outs'][f'HARDWARE OUT||{key}']}")
                case [["HARDWARE", "OUT"], [key], ["KEY", "SPACE" | "ENTER"]]:
-                    open_context_menu_for_buttonmenu(self, f"HARDWARE OUT||{key}")
+                    util.open_context_menu_for_buttonmenu(self, f"HARDWARE OUT||{key}")
                # Patch ASIO
                case [["ASIO", "CHECKBOX"], [in_num, channel]]:
-                    index = get_asio_checkbox_index(int(channel), int(in_num[-1]))
+                    index = util.get_asio_checkbox_index(int(channel), int(in_num[-1]))
                    val = values[f"ASIO CHECKBOX||{in_num} {channel}"]
                    self.vm.patch.asio[index].set(val)
                    channel = ("left", "right")[int(channel)]
                    self.nvda.speak(f"Patch ASIO {in_num} {channel} set to {val}")
                case [["ASIO", "CHECKBOX"], [in_num, channel], ["FOCUS", "IN"]]:
                    if self.find_element_with_focus() is not None:
                        val = values[f"ASIO CHECKBOX||{in_num} {channel}"]
                        channel = ("left", "right")[int(channel)]
                        num = int(in_num[-1])
@@ -405,21 +575,22 @@ class NVDAVMWindow(psg.Window):
                case [["PATCH", "COMPOSITE"], [key]]:
                    val = values[f"PATCH COMPOSITE||{key}"]
                    index = int(key[-1]) - 1
-                    self.vm.patch.composite[index].set(get_patch_composite_list(self.kind).index(val) + 1)
+                    self.vm.patch.composite[index].set(util.get_patch_composite_list(self.kind).index(val) + 1)
                    self.TKroot.after(200, self.nvda.speak, f"PATCH COMPOSITE {key[-1]} set {val}")
                case [["PATCH", "COMPOSITE"], [key], ["FOCUS", "IN"]]:
                    if self.find_element_with_focus() is not None:
                        if values[f"PATCH COMPOSITE||{key}"]:
                            val = values[f"PATCH COMPOSITE||{key}"]
                        else:
                            index = int(key[-1]) - 1
-                        val = get_patch_composite_list(self.kind)[self.vm.patch.composite[index].get() - 1]
+                            val = util.get_patch_composite_list(self.kind)[self.vm.patch.composite[index].get() - 1]
                        self.nvda.speak(f"Patch COMPOSITE {key[-1]} {val}")
                case [["PATCH", "COMPOSITE"], [key], ["KEY", "SPACE" | "ENTER"]]:
-                    open_context_menu_for_buttonmenu(self, f"PATCH COMPOSITE||{key}")
+                    util.open_context_menu_for_buttonmenu(self, f"PATCH COMPOSITE||{key}")
                # Patch INSERT
                case [["INSERT", "CHECKBOX"], [in_num, channel]]:
-                    index = get_insert_checkbox_index(
+                    index = util.get_insert_checkbox_index(
                        self.kind,
                        int(channel),
                        int(in_num[-1]),
@@ -427,67 +598,421 @@ class NVDAVMWindow(psg.Window):
                    val = values[f"INSERT CHECKBOX||{in_num} {channel}"]
                    self.vm.patch.insert[index].on = val
                    self.nvda.speak(
-                        f"PATCH INSERT {in_num} {_patch_insert_channels[int(channel)]} set to {'on' if val else 'off'}"
+                        f"PATCH INSERT {in_num} {util._patch_insert_channels[int(channel)]} set to {'on' if val else 'off'}"
                    )
                case [["INSERT", "CHECKBOX"], [in_num, channel], ["FOCUS", "IN"]]:
-                    index = get_insert_checkbox_index(
+                    if self.find_element_with_focus() is not None:
                        index = util.get_insert_checkbox_index(
                            self.kind,
                            int(channel),
                            int(in_num[-1]),
                        )
                        val = values[f"INSERT CHECKBOX||{in_num} {channel}"]
-                    channel = _patch_insert_channels[int(channel)]
+                        channel = util._patch_insert_channels[int(channel)]
                        num = int(in_num[-1])
                        self.nvda.speak(f"Patch INSERT IN#{num} {channel} {'on' if val else 'off'}")
-                # ASIO Buffer
+                # Advanced Settings
-                case ["ASIO BUFFER"]:
+                case ["ADVANCED SETTINGS"] | ["CTRL-A"]:
-                    if values[event] == "Default":
+                    if values["tabgroup"] == "tab||Settings":
-                        val = 0
+                        self.popup_advanced_settings(title="Advanced Settings")
-                    else:
+                case [["ADVANCED", "SETTINGS"], ["FOCUS", "IN"]]:
-                        val = values[event]
+                    self.nvda.speak("ADVANCED SETTINGS")
-                    self.vm.option.buffer("asio", val)
+                case [["ADVANCED", "SETTINGS"], ["KEY", "ENTER"]]:
                    self.TKroot.after(200, self.nvda.speak, f"ASIO BUFFER {val if val else 'default'}")
                case [["ASIO", "BUFFER"], ["FOCUS", "IN"]]:
                    val = int(self.vm.get("option.buffer.asio"))
                    self.nvda.speak(f"ASIO BUFFER {val if val else 'default'}")
                case [["ASIO", "BUFFER"], ["KEY", "SPACE" | "ENTER"]]:
                    open_context_menu_for_buttonmenu(self, "ASIO BUFFER")
                # Strip outputs
                case [["STRIP", index], [output]]:
                    val = not self.cache["outputs"][f"STRIP {index}||{output}"]
                    setattr(self.vm.strip[int(index)], output, val)
                    self.cache["outputs"][f"STRIP {index}||{output}"] = val
                    self.nvda.speak(f"STRIP {index} {output} {label if label else ''} {'on' if val else 'off'}")
                case [["STRIP", index], [output], ["FOCUS", "IN"]]:
                    val = self.cache["outputs"][f"STRIP {index}||{output}"]
                    label = self.cache["labels"][f"STRIP {index}||LABEL"]
                    self.nvda.speak(f"{label} {output} {'on' if val else 'off'}")
                case [["STRIP", index], [output], ["KEY", "ENTER"]]:
                    self.find_element_with_focus().click()
-                # Bus modes
+                # Strip Params
-                case [["BUS", index], ["MODE"]]:
+                case [["STRIP", index], [param]]:
-                    val = self.cache["busmode"][event]
+                    label = self.cache["labels"][f"STRIP {index}||LABEL"]
-                    if val != "normal":
+                    match param:
-                        self.vm.bus[int(index)].mode.normal = True
+                        case "MONO":
-                        self.cache["busmode"][event] = "normal"
+                            if int(index) < self.kind.phys_in:
                                actual = param.lower()
                            elif int(index) == self.kind.phys_in + 1:
                                actual = "k"
                            else:
-                        self.vm.bus[int(index)].mode.composite = True
+                                actual = "mc"
-                        self.cache["busmode"][event] = "composite"
+                            phonetic = {"k": "karaoke"}
                            if actual == "k":
                                next_val = self.vm.strip[int(index)].k + 1
                                if next_val == 4:
                                    next_val = 0
                                setattr(self.vm.strip[int(index)], actual, next_val)
                                self.cache["strip"][f"STRIP {index}||{param}"] = next_val
                                self.nvda.speak(
                                    f"{label} {phonetic.get(actual, actual)} {['off', 'k m', 'k 1', 'k 2'][next_val]}"
                                )
                            else:
                                val = not self.cache["strip"][f"STRIP {index}||{param}"]
                                setattr(self.vm.strip[int(index)], actual, val)
                                self.cache["strip"][f"STRIP {index}||{param}"] = val
                                self.nvda.speak(f"{label} {phonetic.get(actual, actual)} {'on' if val else 'off'}")
                        case _:
                            val = not self.cache["strip"][f"STRIP {index}||{param}"]
                            setattr(self.vm.strip[int(index)], param if param[0] in ("A", "B") else param.lower(), val)
                            self.cache["strip"][f"STRIP {index}||{param}"] = val
                            self.nvda.speak(f"{label} {param} {'on' if val else 'off'}")
                case [["STRIP", index], [param], ["FOCUS", "IN"]]:
                    if self.find_element_with_focus() is not None:
                        val = self.cache["strip"][f"STRIP {index}||{param}"]
                        match param:
                            case "MONO":
                                if int(index) < self.kind.phys_in:
                                    actual = param.lower()
                                elif int(index) == self.kind.phys_in + 1:
                                    actual = "k"
                                else:
                                    actual = "mc"
                            case _:
                                actual = param
                        phonetic = {"k": "karaoke"}
                        label = self.cache["labels"][f"STRIP {index}||LABEL"]
                        if actual == "k":
                            self.nvda.speak(
                                f"{label} {phonetic.get(actual, actual)} {['off', 'k m', 'k 1', 'k 2'][self.cache['strip'][f'STRIP {int(index)}||{param}']]}"
                            )
                        else:
                            self.nvda.speak(f"{label} {phonetic.get(actual, actual)} {'on' if val else 'off'}")
                case [["STRIP", index], [param], ["KEY", "ENTER"]]:
                    self.find_element_with_focus().click()
                # Strip Sliders
                case [
                    ["STRIP", index],
                    [
                        "SLIDER",
                        "GAIN"
                        | "COMP"
                        | "GATE"
                        | "DENOISER"
                        | "AUDIBILITY"
                        | "LIMIT"
                        | "BASS"
                        | "MID"
                        | "TREBLE" as param,
                    ],
                ]:
                    label = self.cache["labels"][f"STRIP {index}||LABEL"]
                    val = values[event]
                    match param:
                        case "GAIN":
                            self.vm.strip[int(index)].gain = val
                        case "COMP" | "GATE" | "DENOISER":
                            target = getattr(self.vm.strip[int(index)], param.lower())
                            target.knob = val
                        case "AUDIBILITY":
                            self.vm.strip[int(index)].audibility = val
                        case "LIMIT":
                            val = int(val)
                            self.vm.strip[int(index)].limit = val
                        case "BASS" | "MID" | "TREBLE":
                            setattr(self.vm.strip[int(index)], param.lower(), val)
                    self.nvda.speak(f"{label} {param} slider {val}")
                case [
                    ["STRIP", index],
                    [
                        "SLIDER",
                        "GAIN"
                        | "COMP"
                        | "GATE"
                        | "DENOISER"
                        | "AUDIBILITY"
                        | "LIMIT"
                        | "BASS"
                        | "MID"
                        | "TREBLE" as param,
                    ],
                    ["FOCUS", "IN"],
                ]:
                    if self.find_element_with_focus() is not None:
                        self.vm.event.pdirty = False
                        label = self.cache["labels"][f"STRIP {index}||LABEL"]
                        val = values[f"STRIP {index}||SLIDER {param}"]
                        self.nvda.speak(f"{label} {param} slider {int(val) if param == 'LIMIT' else val}")
                case [
                    ["STRIP", index],
                    [
                        "SLIDER",
                        "GAIN" | "COMP" | "GATE" | "DENOISER" | "AUDIBILITY" | "LIMIT" | "BASS" | "MID" | "TREBLE",
                    ],
                    ["FOCUS", "OUT"],
                ]:
                    self.vm.event.pdirty = True
                case [
                    ["STRIP", index],
                    [
                        "SLIDER",
                        "GAIN"
                        | "COMP"
                        | "GATE"
                        | "DENOISER"
                        | "AUDIBILITY"
                        | "LIMIT"
                        | "BASS"
                        | "MID"
                        | "TREBLE" as param,
                    ],
                    ["KEY", "LEFT" | "RIGHT" | "UP" | "DOWN" as direction],
                ]:
                    match param:
                        case "GAIN":
                            val = self.vm.strip[int(index)].gain
                        case "COMP" | "GATE" | "DENOISER":
                            target = getattr(self.vm.strip[int(index)], param.lower())
                            val = target.knob
                        case "AUDIBILITY":
                            val = self.vm.strip[int(index)].audibility
                        case "BASS" | "MID" | "TREBLE":
                            val = getattr(self.vm.strip[int(index)], param.lower())
                        case "LIMIT":
                            val = self.vm.strip[int(index)].limit
                    match direction:
                        case "RIGHT" | "UP":
                            val += 1
                        case "LEFT" | "DOWN":
                            val -= 1
                    match param:
                        case "GAIN":
                            self.vm.strip[int(index)].gain = util.check_bounds(val, (-60, 12))
                            self[f"STRIP {index}||SLIDER {param}"].update(value=util.check_bounds(val, (-60, 12)))
                        case "COMP" | "GATE" | "DENOISER":
                            setattr(target, "knob", util.check_bounds(val, (0, 10)))
                            self[f"STRIP {index}||SLIDER {param}"].update(value=util.check_bounds(val, (0, 10)))
                        case "AUDIBILITY":
                            self.vm.strip[int(index)].audibility = util.check_bounds(val, (0, 10))
                            self[f"STRIP {index}||SLIDER {param}"].update(value=util.check_bounds(val, (0, 10)))
                        case "BASS" | "MID" | "TREBLE":
                            setattr(self.vm.strip[int(index)], param.lower(), util.check_bounds(val, (-12, 12)))
                            self[f"STRIP {index}||SLIDER {param}"].update(value=util.check_bounds(val, (-12, 12)))
                        case "LIMIT":
                            self.vm.strip[int(index)].limit = util.check_bounds(val, (-40, 12))
                            self[f"STRIP {index}||SLIDER {param}"].update(value=util.check_bounds(val, (-40, 12)))
                case [
                    ["STRIP", index],
                    [
                        "SLIDER",
                        "GAIN"
                        | "COMP"
                        | "GATE"
                        | "DENOISER"
                        | "AUDIBILITY"
                        | "LIMIT"
                        | "BASS"
                        | "MID"
                        | "TREBLE" as param,
                    ],
                    ["KEY", "CTRL", "LEFT" | "RIGHT" | "UP" | "DOWN" as direction],
                ]:
                    match param:
                        case "GAIN":
                            val = self.vm.strip[int(index)].gain
                        case "COMP" | "GATE" | "DENOISER":
                            target = getattr(self.vm.strip[int(index)], param.lower())
                            val = target.knob
                        case "AUDIBILITY":
                            val = self.vm.strip[int(index)].audibility
                        case "BASS" | "MID" | "TREBLE":
                            val = getattr(self.vm.strip[int(index)], param.lower())
                        case "LIMIT":
                            val = self.vm.strip[int(index)].limit
                    match direction:
                        case "RIGHT" | "UP":
                            if param in ("COMP", "GATE", "DENOISER", "AUDIBILITY", "BASS", "MID", "TREBLE"):
                                val += 1
                            else:
                                val += 3
                        case "LEFT" | "DOWN":
                            if param in ("COMP", "GATE", "DENOISER", "AUDIBILITY", "BASS", "MID", "TREBLE"):
                                val -= 1
                            else:
                                val -= 3
                    match param:
                        case "GAIN":
                            self.vm.strip[int(index)].gain = util.check_bounds(val, (-60, 12))
                            self[f"STRIP {index}||SLIDER {param}"].update(value=util.check_bounds(val, (-60, 12)))
                        case "COMP" | "GATE" | "DENOISER":
                            setattr(target, "knob", util.check_bounds(val, (0, 10)))
                            self[f"STRIP {index}||SLIDER {param}"].update(value=util.check_bounds(val, (0, 10)))
                        case "AUDIBILITY":
                            self.vm.strip[int(index)].audibility = util.check_bounds(val, (0, 10))
                            self[f"STRIP {index}||SLIDER {param}"].update(value=util.check_bounds(val, (0, 10)))
                        case "BASS" | "MID" | "TREBLE":
                            setattr(self.vm.strip[int(index)], param.lower(), util.check_bounds(val, (-12, 12)))
                            self[f"STRIP {index}||SLIDER {param}"].update(value=util.check_bounds(val, (-12, 12)))
                        case "LIMIT":
                            self.vm.strip[int(index)].limit = util.check_bounds(val, (-40, 12))
                            self[f"STRIP {index}||SLIDER {param}"].update(value=util.check_bounds(val, (-40, 12)))
                case [
                    ["STRIP", index],
                    [
                        "SLIDER",
                        "GAIN"
                        | "COMP"
                        | "GATE"
                        | "DENOISER"
                        | "AUDIBILITY"
                        | "LIMIT"
                        | "BASS"
                        | "MID"
                        | "TREBLE" as param,
                    ],
                    ["KEY", "SHIFT", "LEFT" | "RIGHT" | "UP" | "DOWN" as direction],
                ]:
                    match param:
                        case "GAIN":
                            val = self.vm.strip[int(index)].gain
                        case "COMP" | "GATE" | "DENOISER":
                            target = getattr(self.vm.strip[int(index)], param.lower())
                            val = target.knob
                        case "AUDIBILITY":
                            val = self.vm.strip[int(index)].audibility
                        case "BASS" | "MID" | "TREBLE":
                            val = getattr(self.vm.strip[int(index)], param.lower())
                        case "LIMIT":
                            val = self.vm.strip[int(index)].limit
                    match direction:
                        case "RIGHT" | "UP":
                            if param == "LIMIT":
                                val += 1
                            else:
                                val += 0.1
                        case "LEFT" | "DOWN":
                            if param == "LIMIT":
                                val -= 1
                            else:
                                val -= 0.1
                    match param:
                        case "GAIN":
                            self.vm.strip[int(index)].gain = util.check_bounds(val, (-60, 12))
                            self[f"STRIP {index}||SLIDER {param}"].update(value=util.check_bounds(val, (-60, 12)))
                        case "COMP" | "GATE" | "DENOISER":
                            setattr(target, "knob", util.check_bounds(val, (0, 10)))
                            self[f"STRIP {index}||SLIDER {param}"].update(value=util.check_bounds(val, (0, 10)))
                        case "AUDIBILITY":
                            self.vm.strip[int(index)].audibility = util.check_bounds(val, (0, 10))
                            self[f"STRIP {index}||SLIDER {param}"].update(value=util.check_bounds(val, (0, 10)))
                        case "BASS" | "MID" | "TREBLE":
                            setattr(self.vm.strip[int(index)], param.lower(), util.check_bounds(val, (-12, 12)))
                            self[f"STRIP {index}||SLIDER {param}"].update(value=util.check_bounds(val, (-12, 12)))
                        case "LIMIT":
                            self.vm.strip[int(index)].limit = util.check_bounds(val, (-40, 12))
                            self[f"STRIP {index}||SLIDER {param}"].update(value=util.check_bounds(val, (-40, 12)))
                # Bus Params
                case [["BUS", index], [param]]:
                    val = self.cache["bus"][event]
                    label = self.cache["labels"][f"BUS {index}||LABEL"]
                    match param:
                        case "EQ":
                            val = not val
                            self.vm.bus[int(index)].eq.on = val
                            self.cache["bus"][event] = val
                            self.TKroot.after(
                                200,
                                self.nvda.speak,
-                        f"{label} bus mode {self.cache['busmode'][event]}",
+                                f"{label} bus {param} {'on' if val else 'off'}",
                            )
-                case [["BUS", index], ["MODE"], ["FOCUS", "IN"]]:
+                        case "MONO" | "MUTE":
                            val = not val
                            setattr(self.vm.bus[int(index)], param.lower(), val)
                            self.cache["bus"][event] = val
                            self.TKroot.after(
                                200,
                                self.nvda.speak,
                                f"{label} bus {param} {'on' if val else 'off'}",
                            )
                        case "MODE":
                            bus_modes = util.get_bus_modes(self.vm)
                            next_index = bus_modes.index(val) + 1
                            if next_index == len(bus_modes):
                                next_index = 0
                            next_bus = bus_modes[next_index]
                            phonetic = {
                                "amix": "Mix Down A",
                                "bmix": "Mix Down B",
                                "repeat": "Stereo Repeat",
                                "tvmix": "Up Mix TV",
                                "upmix21": "Up Mix 2.1",
                                "upmix41": "Up Mix 4.1",
                                "upmix61": "Up Mix 6.1",
                                "centeronly": "Center Only",
                                "lfeonly": "Low Frequency Effect Only",
                                "rearonly": "Rear Only",
                            }
                            setattr(self.vm.bus[int(index)].mode, next_bus, True)
                            self.cache["bus"][event] = next_bus
                            self.TKroot.after(
                                200,
                                self.nvda.speak,
                                f"{label} bus mode {phonetic.get(next_bus, next_bus)}",
                            )
                case [["BUS", index], [param], ["FOCUS", "IN"]]:
                    if self.find_element_with_focus() is not None:
                        label = self.cache["labels"][f"BUS {index}||LABEL"]
-                    self.nvda.speak(f"{label} bus mode {self.cache['busmode'][f'BUS {index}||MODE']}")
+                        val = self.cache["bus"][f"BUS {index}||{param}"]
-                case [["BUS", index], ["MODE"], ["KEY", "ENTER"]]:
+                        if param == "MODE":
                            self.nvda.speak(f"{label} bus {param} {val}")
                        else:
                            self.nvda.speak(f"{label} bus {param} {'on' if val else 'off'}")
                case [["BUS", index], [param], ["KEY", "ENTER"]]:
                    self.find_element_with_focus().click()
                # Bus Sliders
                case [["BUS", index], ["SLIDER", "GAIN"]]:
                    label = self.cache["labels"][f"BUS {index}||LABEL"]
                    val = values[event]
                    self.vm.bus[int(index)].gain = val
                    self.nvda.speak(f"{label} gain slider {val}")
                case [["BUS", index], ["SLIDER", "GAIN"], ["FOCUS", "IN"]]:
                    if self.find_element_with_focus() is not None:
                        self.vm.event.pdirty = False
                        label = self.cache["labels"][f"BUS {index}||LABEL"]
                        val = values[f"BUS {index}||SLIDER GAIN"]
                        self.nvda.speak(f"{label} gain slider {val}")
                case [["BUS", index], ["SLIDER", "GAIN"], ["FOCUS", "OUT"]]:
                    self.vm.event.pdirty = True
                case [["BUS", index], ["SLIDER", "GAIN"], ["KEY", "LEFT" | "RIGHT" | "UP" | "DOWN" as direction]]:
                    val = self.vm.bus[int(index)].gain
                    match direction:
                        case "RIGHT" | "UP":
                            val += 1
                        case "LEFT" | "DOWN":
                            val -= 1
                    self.vm.bus[int(index)].gain = util.check_bounds(val, (-60, 12))
                    self[f"BUS {index}||SLIDER GAIN"].update(value=val)
                case [
                    ["BUS", index],
                    ["SLIDER", "GAIN"],
                    ["KEY", "CTRL", "LEFT" | "RIGHT" | "UP" | "DOWN" as direction],
                ]:
                    val = self.vm.bus[int(index)].gain
                    match direction:
                        case "RIGHT" | "UP":
                            val += 3
                        case "LEFT" | "DOWN":
                            val -= 3
                    self.vm.bus[int(index)].gain = util.check_bounds(val, (-60, 12))
                    self[f"BUS {index}||SLIDER GAIN"].update(value=val)
                case [
                    ["BUS", index],
                    ["SLIDER", "GAIN"],
                    ["KEY", "SHIFT", "LEFT" | "RIGHT" | "UP" | "DOWN" as direction],
                ]:
                    val = self.vm.bus[int(index)].gain
                    match direction:
                        case "RIGHT" | "UP":
                            val += 0.1
                        case "LEFT" | "DOWN":
                            val -= 0.1
                    self.vm.bus[int(index)].gain = util.check_bounds(val, (-60, 12))
                    self[f"BUS {index}||SLIDER GAIN"].update(value=val)
                # Unknown
                case _:
                    self.logger.debug(f"Unknown event {event}")
Author	SHA1	Message	Date
onyx-and-iris	ac14b7ad0d	adds sliders to on_pdirty bump to b2	2023-09-17 14:49:42 +01:00
onyx-and-iris	78b7e01fa6	bump to 0.2.1.b1	2023-09-17 12:36:15 +01:00
onyx-and-iris	42fad86905	defines bass,mid,treble ctrl events	2023-09-17 12:23:04 +01:00
onyx-and-iris	6c54d28210	define focus out for bass,mid,treble	2023-09-17 12:09:38 +01:00
onyx-and-iris	d958167ded	fixes comp, gate, denoiser ctrl+up/down/left/right	2023-09-17 12:07:14 +01:00
onyx-and-iris	0570138963	bass, mid, treble slider events defined	2023-09-17 11:44:15 +01:00
onyx-and-iris	1fdb39a041	events defined for sliders resolution fix for limit slider	2023-09-17 11:25:11 +01:00
onyx-and-iris	3d7b33c8be	fix events for sliders	2023-09-17 10:18:22 +01:00
onyx-and-iris	cf5c8f81aa	bind events added for sliders	2023-09-17 09:30:38 +01:00
onyx-and-iris	c248808c7b	LabelSlider compound element added labels for sliders added. all sliders now focusable. todo: add events/binds for sliders	2023-09-16 23:13:56 +01:00
onyx-and-iris	d93f078365	upd type annotations cleanup global namespace.	2023-09-16 20:28:07 +01:00
onyx-and-iris	e0f36b2411	start laying out parameter sliders.	2023-09-16 10:45:56 +01:00
onyx-and-iris	719328c6de	adds check bounds. bump pre-release a3	2023-09-15 23:01:26 +01:00
onyx-and-iris	65a148aa7b	bump to pre-release a2	2023-09-15 19:16:30 +01:00
onyx-and-iris	ba1fb28187	use gain getters.	2023-09-15 19:12:07 +01:00
onyx-and-iris	e35bad9e1e	a1 version bump	2023-09-15 13:48:19 +01:00
onyx-and-iris	804af85e65	adds up,down bind events	2023-09-15 12:35:10 +01:00
onyx-and-iris	96de917b64	gain slider control events registered allows adjusting gain by different amounts.	2023-09-15 11:35:27 +01:00
onyx-and-iris	bc14116cd7	places gain sliders on slider tabs slider focus in/out events registered.	2023-09-15 10:55:22 +01:00
onyx-and-iris	086fbc1b8c	start laying out nested tab structure focus in events added for tabgroups focus the settings tab on startup	2023-09-14 13:46:26 +01:00
onyx-and-iris	047577265c	documentation changes python version upper limit increased to support 3.11	2023-09-14 08:43:15 +01:00
onyx-and-iris	7ab7c30e80	adds advanced settings for Basic kind.	2023-09-13 14:12:48 +01:00
onyx-and-iris	bfdc0306e3	update default values for each driver type open advanced settings popup if current tab is settings. minor version bump	2023-09-13 12:16:28 +01:00
onyx-and-iris	245476adfd	Merge remote-tracking branch 'origin/dev' into add-advanced-settings	2023-09-13 11:30:00 +01:00
onyx-and-iris	2562c02b7e	lstrip hardware in as well.	2023-09-13 10:59:41 +01:00
onyx-and-iris	aaa2c72668	fixes bug setting devices with trailing spaces adds rejected_ids to util. removes Voicemeeter devices as assignable hardware devices patch bump	2023-09-13 10:56:09 +01:00
onyx-and-iris	7648b68b85	remove asio devices from hardware out context menus if not A1 removes `-remove device selection-` from hardware out A1 context menu patch bump fixes #7	2023-09-11 12:36:40 +01:00
onyx-and-iris	14c6b937d1	implements advanced settings popup gives access to driver buffer settings. may open by button or ctrl-a	2023-09-11 07:51:16 +01:00
onyx-and-iris	5069db97da	ensure Virtual Input gets correct label if cleared	2023-09-10 14:32:31 +01:00
onyx-and-iris	681bf8e85c	fixes bug renaming virtual strips. patch bump	2023-09-10 14:23:34 +01:00
onyx-and-iris	8424558f3d	special thanks section added to readme	2023-09-07 07:29:04 +01:00
onyx-and-iris	39bd5f21ea	patch bump fixes #3	2023-09-06 19:19:54 +01:00
onyx-and-iris	77dfd00541	reduces the bus mode list for basic kind	2023-09-06 19:18:31 +01:00
onyx-and-iris	790ac10d4a	remove EQ button and events if kind is basic	2023-09-06 19:18:14 +01:00
onyx-and-iris	ed5f9ae45b	fixes hardware out A2 for basic kind. patch bump	2023-09-06 16:20:04 +01:00
onyx-and-iris	962b61f60a	fixes k, mc layout for banana kind	2023-09-06 15:27:55 +01:00
onyx-and-iris	b2e03aace1	add settings tab screenshot Installation section added to readme	2023-09-06 15:07:59 +01:00
onyx-and-iris	3a52655811	add Voicemeeter link	2023-09-06 05:29:23 +01:00
onyx-and-iris	178d6e451b	add screenshots	2023-09-06 00:58:09 +01:00
onyx-and-iris	fc8ae11555	add badges	2023-09-06 00:42:49 +01:00
onyx-and-iris	e4afe35fb2	initial README	2023-09-06 00:33:59 +01:00
onyx-and-iris	e2edd29b87	hardware ins implemented strip, bus params implemented (mute, mono, eq etc) bus mode buttons now rotate through all bus modes	2023-09-06 00:03:12 +01:00